Electronics Industry/Education Suggestions!(Theory plus Practice-PM Rajeev Gandhi, is the key) Prof Sanjeev Bahadur [email protected] lotusindia2011@rediffmail .com
Jun 19, 2015
Electronics IndustryEducationSuggestions(Theory plus Practice-PM Rajeev Gandhi is the key)
Prof Sanjeev Bahadursidbeerediffmailcom
lotusindia2011rediffmailcom
IIT Delhi-Deptt of Elect Engg teaches ElectronicsCommunicationsIEC
Trend in Production of Electronic Goods-India
Presentation discusses CEERI(CSIR-Electronics Lab) Pilani CEL-Solar Products DEAL Dehradun BEL Delhi CDAC Pune DLRL IITDELHI (Electrical Engg Department) NIT Syllabus Springer Research Journals Various CADCAM tools Simulation Software Govt of India-Manufacturing Policies
CEERI Pilani Lab
CEERI Electronics Pilani(CSIR Lab) Agri Electronics Group Current Activities Sponsored Projects 1) Embedded Odor-Vision Sensing (OVS) System for Detection of Food Freshness Sponsoring Agency DBTDST New Delhi
Objectives To design develop and assemble the odour-vision sensor head chamber and its
interface to the embedded hardware software platform To construct the flow-injection system for calibration and tuning the OVS system
for specific food odour using appropriate neural network To acquire store and analyse responses from odourgas sensors array to different
odoursvapours and he images of various food samples to generate the data base library for food items
To implement wireless networking of different OVS systems within the region To investigate and validate the developed with the standard analytical systems like
GC-MS and ALPHA-E-nose system available in AEG CSIR-CEERI Deliverables A cost effective odour-vision sensing (OVS) system for food application
See Nature of Multi Disciplinary Engg facilities 2)To develop and Install Embedded Monitoring and Control System for RO Desalination Plants Sponsoring Agency DST New Delhi
Objectives
To develop a cost effective embedded automation system for 1000 LPH RO Plants (Brackish water TDS 2000- 5000 ppm)
To design and develop embedded hardware and software platform for monitoring and controlling of the sensors pressure regulators flow controllers control valves and water quality measurement chamber
To acquire store and analyze the water quality at different stages of operation using measurement chamber for efficient and productive operation of the plant
Deliverables
Installation of five RO automation systems at different places in Rajasthan along with CSIR-CSMCRI Bhavnagar Network Projects 1) Clean Coal Technology (TapCoal-CSC 0102)
WP-1 Coal Combustion and Gasification Technologies (CSIR-CIMFR CSIR-CMERI CSIR-CEERI CSIR-NCL CSIR-NEERI)
Objectives Development of Embedded Linux based Instrumentation and Control System for Pilot scale circulating fluidized
bed gasifier Measurement of gas composition temperature and differential pressure (at high temperature) Maintaining the stable fluidized bed (experimental) conditions (temperature 700degC Air flow rate 5-10 m3h
Coal feed rate 10 Kgh) in real time using the Embedded Linux Systems Controlling of heat exchangers and blowers Deliverables
Embedded Linux based Instrumentation and control system for Pilot scale circulating fluidized bed gasifier Unit
CEERI Pilani-Continued WP-1 Coal Combustion and Gasification Technologies (CSIR-CIMFR CSIR-CMERI CSIR-CEERI CSIR-NCL CSIR-NEERI)
Objectives Development of Embedded Linux based Instrumentation and Control System for Pilot scale circulating fluidized bed gasifier
Measurement of gas composition temperature and differential pressure (at high temperature) Maintaining the stable fluidized bed (experimental) conditions (temperature 700degC Air flow rate 5-10 m3h Coal feed rate 10
Kgh) in real time using the Embedded Linux Systems Controlling of heat exchangers and blowers Deliverables
Embedded Linux based Instrumentation and control system for Pilot scale circulating fluidized bed gasifier Unit 2) Advanced Microsensors and Microsystems (Design Development and Applications (Micro-SenSys)
WP-23 -Application Water and Food
Objectives Embedded reconfigurable smart sensorrsquos system for water and food applications Development of appropriate non-contact type smart sensing and decision making systems for freshness of food like vegetables
bakery and dairy products Deliverables Prototype of Embedded reconfigurable multi-sensorrsquos systems Prototype of Odor Vision Sensing Systems for food freshness 5)Clean Water Sustainable Options
WP2Development of real time wireless embedded multi-sensor system for monitoring and analysing water quality parameters (CSIR-NEERI CSIR- CSIR-CEERI CSIR-NCL CSIR-CGCRI and CSIR-CSIO)
Objectives
Development and demonstration of field usable devices for water quality monitoring Development and demonstration of improved technological options for water quality enhancement Enhanced knowledge
utilization and dissemination Deliverables
Prototype of real time wireless embedded multi-sensor system for water quality monitoring Lab scale demonstration of the developed system network using field water sensors [Home] [About CEERI] [RampD Programs] [Contact] Copyright copy CEERI Pilani
CEERI Pilani-CSIR Embedded Linux based Instrumentation and control system for Pilot
scale circulating fluidized bed gasifier Unit 2) Advanced Microsensors and Microsystems (Design
Development and Applications (Micro-SenSys) WP-23 -Application Water and Food
Objectives Embedded reconfigurable smart sensorrsquos system for water and food
applications Development of appropriate non-contact type smart sensing and
decision making systems for freshness of food like vegetables bakery and dairy products
Deliverables Prototype of Embedded reconfigurable multi-sensorrsquos systems
Prototype of Odor Vision Sensing Systems for food freshness 5)Clean Water Sustainable Options
WP2Development of real time wireless embedded multi-sensor system for monitoring and analysing water quality parameters (CSIR-NEERI CSIR- CSIR-CEERI CSIR-NCL CSIR-CGCRI and CSIR-CSIO)
CEERIPilani Achievements of Agri Electronics Group Completed Projects till December 2013 1) Remotely Monitored and Controlled High Capacity RO Plant for
desalination of Sea Water
Sponsored DST (WTI) Implementation CSMCRI amp CEERI
TechnicalScientific Achievements
The following tasks were successfully completed during the period at CSMCRI Bhavnagar by CEERI Pilani and CSMCRI team
Installation and testing of Embedded Controller along with PC wireless connectivity for the two stage sea water desalination RO plant at CSMCRI
The various operating modes of running the RO plant are tested for two stages successfully (process mode water wash mode chemical wash mode)
Remote control and monitoring of the plant is implemented using LabVIEW software
The plant is successfully controlled and tested remotely from Nov 2012 to Dec 2013
CEERI-Smart Pond Management System for Fresh Water Aquaculture
Sponsored DBT Implementation CSIR-CEERI ICAR-CIFA Bhubaneswar
This is combined project with CIFA Bhuvaneshwar funded by DBT Govt of India The developed Embedded Platform based systems monitor all critical parameters of the pond and predicts the stress factor on the fish prawn so that the farmer can take preventive action in advance Wireless protocol is developed for integrating different systems developed under this project Systems developed under this project are
Embedded Smart Motorized Boat for Water and Aquaculture (large Ponds)
Auto Feeder System (Small Ponds) Water Quality Systems
Electronics System Areas of ResearchbullAgri-ElectronicsbullEmbedded SystemsbullDigital SystemsbullPower Electronics
Electron Tubes Areas of ResearchbullGyrotronbullKlystronbullMagnetrons
Plasma DevicesbullTraveling Wave Tubes Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
CEERIPilani
Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
MEMS and Microsensors Group Current Activities Research AreasbullDesign Development of MEMS
Pressure Sensors 1Design Fabrication Packaging for Testing and Calibration 2Piezoresistive Piezoelectric Pressure Sensors 3Bulk and Surface Micromachined Capacitive Pressure Sensors 4Piezoresistive Load Cells 5DRIE based MEMS Absolute Pressure SensorbullDesign and Development of MEMS Ultrasonic Transducers 1Development of Process Technolgy and Device Fabrication 2Packaging Testing and Characterization 3Development of Wafer-Bonding Technology for Membrane FormationbullDesign and Development of Bio-Sensors 1Design and Fabrication of Micro-Cantilever for Bio-Sensing 2Design and Fabrication of ISFET 3Design and Development of Lab-on-Chip Microfluidics 4Design and Fabrication of Microsensors for Biomedical Food and Environmental ApplicationsbullDesign and Development of MEMS Inertial Sensors 1Design and Simulations of Rate MEMS Gyroscopes 2Design and Simulations of LIGA Technology based Interdigitated Comb Drive Accelerometer 3Fabrication of Accelerometer with DaCM using DRIEbullDesign and Development of Micro-Wave MEMS 1Design and Simulation for parameter extraction of RF Switches Phase Shifters Inductors Antenna Wave Guide RF couplers Filters Resonators Fabrication of Phase Shifter DevicesbullFabrication of MEMS Ultrasonic Transducer for Non-Destructive Testing
Springer Research Journals Electric Electronics and Communication EngineeringISSN NoInternational
Journal of Electrical Engineering [IJEE]0974-2158International Journal of Electronics and Communication Engineering [IJECE]0974-2166International Journal of Electronic and Electrical Engineering [IJEEE]0974-2174International Journal of Electronics Networks Devices and Field [IJENDF]0974-2182International Journal of Electrical and Computer Engineering [IJEC]0974-2190International Journal of Microcircuits and Electronic [IJME]0974-2204International Journal of Photonics [IJP]0974-2212International Journal of Industrial Electronics and Control [IJIEC]0974-2220Advances in Wireless and Mobile Communications [AWMC]0973-6972International Journal of Wireless Networks and Communications [IJWNC]0975-6507International Journal of Electronics Engineering Research [IJEER]0975-6450International Journal of Applied Engineering Research [IJAER]1087-1090International Journal of Wireless Communication and Simulation [IJWCS]2231-1254Advances in Electronic and Electric Engineering [AEEE]2231-1297Global Journal of Electronic and Communication Research [GJECR]2249-314XInternational Journal of Electronic and Communication Research [IJECR]2231-1246International Journal of Mobile Communication amp Networking [IJMCN]2231-1203Global Journal of Electronic and Communication Engg amp Technology [GJECET] International Journal of Communication Engineering and Technology [IJCET]2277-3150International Journal of Electronic Engineering and Technology [IJEET]2249-3085Journal of Nonlinear Analysis and Applications [JNAA]
CEL-Solar Photovoltaic Group The function of this business unit is to manufacture and market Solar
Voltaic Cells Modules and complete systems in India amp AbroadCentral Electronics Limited (CEL) is the pioneer and one of the largest manufacturers of Solar-Photovoltaic (SPV) Cells Modules and Systems in India Through own RampD efforts spread over a decade of continuous efforts the company has converted a laboratory concept into an industrial technologyCEL with its commitment to harness the solar energy has opened up new vistas in the field of solar photovoltaic
Backed by an integrated production facility to manufacture Mono-Crystalline Silicon Solar Cells and Modules with the state-of-the-art screen-printing technology the company has supplied more than 5 Lakhs SPV Systems in India and abroad covering both rural and industrial applications CEL is in process of enhancing its modules manufacturing capacity to 40 MWp and the production is expected to start by August 2014
CEL products conform to stringent National amp International Standards The PV modules are tested for IEC 6121561730by TUV Rheinland
Our modules have been successfully tested by Solar Energy Centre (SEC) of the Ministry of Non-conventional Energy Sources (MNES) Govt of India
CEL Solar Panel Applications
SOLAR PHOTOVOLTAIC MODULES PM10
CELrsquos Solar Photovoltaic Modules type PM10 are manufactured using Mono Crystalline Silicon Solar Cells These are high quality and
high performance modules suitable for power generation These modules have excellent durability to withstand extreme temperature
and weather conditions of the high altitudes deserts and coastal regions FEATURES 1048698 Uses mono crystalline silicon Solar Cells 1048698 Suitable for DC 12V24V systems or multiple there-of 1048698 Encapsulation of cells using UV stabilized polymer (EVA) and protective back
cover using Tedler-Polyester-Tedlar 1048698 High transmission toughened glass superstrate and anodized aluminum frame
for mounting 1048698 Long service Life APPLICATIONSSOLAR PV MODULE PM10SPECIFICATION Physical Parameters Environmental Rating Specification subject to change without prior notice due to continuous in-house
improvements 1 Lighting 6 Telecommunication 2 Television 7 Refrigeration 3 Water Pumping 8 Railway Signaling 4Rural Electrification 9 Remote Resort Power 5 Power Plants
DEAL(Defence Electronics Appn Lab)Dehradun DEAL is committed to provide the required
resources infrastructure and an effective amp efficient Quality Management System for timely completion of the design and development of the productswhich shall be conforming consistently to the stated amp implied needs of the user
DEAL is also committed to ascertain the continuous improvements through the periodic review of Quality Management System
Areas of WorkDEALDehradun
Areas of Work Data Links Software Radios Satellite Communication Microwave amp Millimeter Systems Image Processing amp Analysis
DEAL Dehradun(See Multidisciplinary Engg Disciplines)
Facilities Available Center for Advanced Mechanical
Engineering (CAME) MIC Computer Aided Design Product Assurance EMI EMC
DLRL Hyderabad VISION To Be a Center of excellence in
the field of Electronic Warfare MISSION Design and development
Evaluation and ToT leading to productionization and Induction of World Class Electronic Warfare Systems Establish Self Reliance in this Critical Technology
DLRLs core competence lies in Design amp Development of Electronic Warfare systems Technologies amp Components They are listed as under SYSTEMS
Design of Electronic Warfare Systems(COMINTELINTESMECM)
Development of hardware and software of sub systems System integration and evaluation on various platforms -
vehicles ships submarines helicopters aircrafts airborne pods
TECHNOLOGIES Multi octave band antennas and radomes Multi octave band MicrowaveMillimeter Wave components amp
super components Narrow bandwide band intercept receivers Broad band high accuracy Direction Finding receivers High power transmitters for ECM Multi beam jammer transmitters Frequency Memory Loops amp Digital Radio Frequency Memories
for jammers
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
IIT Delhi-Deptt of Elect Engg teaches ElectronicsCommunicationsIEC
Trend in Production of Electronic Goods-India
Presentation discusses CEERI(CSIR-Electronics Lab) Pilani CEL-Solar Products DEAL Dehradun BEL Delhi CDAC Pune DLRL IITDELHI (Electrical Engg Department) NIT Syllabus Springer Research Journals Various CADCAM tools Simulation Software Govt of India-Manufacturing Policies
CEERI Pilani Lab
CEERI Electronics Pilani(CSIR Lab) Agri Electronics Group Current Activities Sponsored Projects 1) Embedded Odor-Vision Sensing (OVS) System for Detection of Food Freshness Sponsoring Agency DBTDST New Delhi
Objectives To design develop and assemble the odour-vision sensor head chamber and its
interface to the embedded hardware software platform To construct the flow-injection system for calibration and tuning the OVS system
for specific food odour using appropriate neural network To acquire store and analyse responses from odourgas sensors array to different
odoursvapours and he images of various food samples to generate the data base library for food items
To implement wireless networking of different OVS systems within the region To investigate and validate the developed with the standard analytical systems like
GC-MS and ALPHA-E-nose system available in AEG CSIR-CEERI Deliverables A cost effective odour-vision sensing (OVS) system for food application
See Nature of Multi Disciplinary Engg facilities 2)To develop and Install Embedded Monitoring and Control System for RO Desalination Plants Sponsoring Agency DST New Delhi
Objectives
To develop a cost effective embedded automation system for 1000 LPH RO Plants (Brackish water TDS 2000- 5000 ppm)
To design and develop embedded hardware and software platform for monitoring and controlling of the sensors pressure regulators flow controllers control valves and water quality measurement chamber
To acquire store and analyze the water quality at different stages of operation using measurement chamber for efficient and productive operation of the plant
Deliverables
Installation of five RO automation systems at different places in Rajasthan along with CSIR-CSMCRI Bhavnagar Network Projects 1) Clean Coal Technology (TapCoal-CSC 0102)
WP-1 Coal Combustion and Gasification Technologies (CSIR-CIMFR CSIR-CMERI CSIR-CEERI CSIR-NCL CSIR-NEERI)
Objectives Development of Embedded Linux based Instrumentation and Control System for Pilot scale circulating fluidized
bed gasifier Measurement of gas composition temperature and differential pressure (at high temperature) Maintaining the stable fluidized bed (experimental) conditions (temperature 700degC Air flow rate 5-10 m3h
Coal feed rate 10 Kgh) in real time using the Embedded Linux Systems Controlling of heat exchangers and blowers Deliverables
Embedded Linux based Instrumentation and control system for Pilot scale circulating fluidized bed gasifier Unit
CEERI Pilani-Continued WP-1 Coal Combustion and Gasification Technologies (CSIR-CIMFR CSIR-CMERI CSIR-CEERI CSIR-NCL CSIR-NEERI)
Objectives Development of Embedded Linux based Instrumentation and Control System for Pilot scale circulating fluidized bed gasifier
Measurement of gas composition temperature and differential pressure (at high temperature) Maintaining the stable fluidized bed (experimental) conditions (temperature 700degC Air flow rate 5-10 m3h Coal feed rate 10
Kgh) in real time using the Embedded Linux Systems Controlling of heat exchangers and blowers Deliverables
Embedded Linux based Instrumentation and control system for Pilot scale circulating fluidized bed gasifier Unit 2) Advanced Microsensors and Microsystems (Design Development and Applications (Micro-SenSys)
WP-23 -Application Water and Food
Objectives Embedded reconfigurable smart sensorrsquos system for water and food applications Development of appropriate non-contact type smart sensing and decision making systems for freshness of food like vegetables
bakery and dairy products Deliverables Prototype of Embedded reconfigurable multi-sensorrsquos systems Prototype of Odor Vision Sensing Systems for food freshness 5)Clean Water Sustainable Options
WP2Development of real time wireless embedded multi-sensor system for monitoring and analysing water quality parameters (CSIR-NEERI CSIR- CSIR-CEERI CSIR-NCL CSIR-CGCRI and CSIR-CSIO)
Objectives
Development and demonstration of field usable devices for water quality monitoring Development and demonstration of improved technological options for water quality enhancement Enhanced knowledge
utilization and dissemination Deliverables
Prototype of real time wireless embedded multi-sensor system for water quality monitoring Lab scale demonstration of the developed system network using field water sensors [Home] [About CEERI] [RampD Programs] [Contact] Copyright copy CEERI Pilani
CEERI Pilani-CSIR Embedded Linux based Instrumentation and control system for Pilot
scale circulating fluidized bed gasifier Unit 2) Advanced Microsensors and Microsystems (Design
Development and Applications (Micro-SenSys) WP-23 -Application Water and Food
Objectives Embedded reconfigurable smart sensorrsquos system for water and food
applications Development of appropriate non-contact type smart sensing and
decision making systems for freshness of food like vegetables bakery and dairy products
Deliverables Prototype of Embedded reconfigurable multi-sensorrsquos systems
Prototype of Odor Vision Sensing Systems for food freshness 5)Clean Water Sustainable Options
WP2Development of real time wireless embedded multi-sensor system for monitoring and analysing water quality parameters (CSIR-NEERI CSIR- CSIR-CEERI CSIR-NCL CSIR-CGCRI and CSIR-CSIO)
CEERIPilani Achievements of Agri Electronics Group Completed Projects till December 2013 1) Remotely Monitored and Controlled High Capacity RO Plant for
desalination of Sea Water
Sponsored DST (WTI) Implementation CSMCRI amp CEERI
TechnicalScientific Achievements
The following tasks were successfully completed during the period at CSMCRI Bhavnagar by CEERI Pilani and CSMCRI team
Installation and testing of Embedded Controller along with PC wireless connectivity for the two stage sea water desalination RO plant at CSMCRI
The various operating modes of running the RO plant are tested for two stages successfully (process mode water wash mode chemical wash mode)
Remote control and monitoring of the plant is implemented using LabVIEW software
The plant is successfully controlled and tested remotely from Nov 2012 to Dec 2013
CEERI-Smart Pond Management System for Fresh Water Aquaculture
Sponsored DBT Implementation CSIR-CEERI ICAR-CIFA Bhubaneswar
This is combined project with CIFA Bhuvaneshwar funded by DBT Govt of India The developed Embedded Platform based systems monitor all critical parameters of the pond and predicts the stress factor on the fish prawn so that the farmer can take preventive action in advance Wireless protocol is developed for integrating different systems developed under this project Systems developed under this project are
Embedded Smart Motorized Boat for Water and Aquaculture (large Ponds)
Auto Feeder System (Small Ponds) Water Quality Systems
Electronics System Areas of ResearchbullAgri-ElectronicsbullEmbedded SystemsbullDigital SystemsbullPower Electronics
Electron Tubes Areas of ResearchbullGyrotronbullKlystronbullMagnetrons
Plasma DevicesbullTraveling Wave Tubes Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
CEERIPilani
Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
MEMS and Microsensors Group Current Activities Research AreasbullDesign Development of MEMS
Pressure Sensors 1Design Fabrication Packaging for Testing and Calibration 2Piezoresistive Piezoelectric Pressure Sensors 3Bulk and Surface Micromachined Capacitive Pressure Sensors 4Piezoresistive Load Cells 5DRIE based MEMS Absolute Pressure SensorbullDesign and Development of MEMS Ultrasonic Transducers 1Development of Process Technolgy and Device Fabrication 2Packaging Testing and Characterization 3Development of Wafer-Bonding Technology for Membrane FormationbullDesign and Development of Bio-Sensors 1Design and Fabrication of Micro-Cantilever for Bio-Sensing 2Design and Fabrication of ISFET 3Design and Development of Lab-on-Chip Microfluidics 4Design and Fabrication of Microsensors for Biomedical Food and Environmental ApplicationsbullDesign and Development of MEMS Inertial Sensors 1Design and Simulations of Rate MEMS Gyroscopes 2Design and Simulations of LIGA Technology based Interdigitated Comb Drive Accelerometer 3Fabrication of Accelerometer with DaCM using DRIEbullDesign and Development of Micro-Wave MEMS 1Design and Simulation for parameter extraction of RF Switches Phase Shifters Inductors Antenna Wave Guide RF couplers Filters Resonators Fabrication of Phase Shifter DevicesbullFabrication of MEMS Ultrasonic Transducer for Non-Destructive Testing
Springer Research Journals Electric Electronics and Communication EngineeringISSN NoInternational
Journal of Electrical Engineering [IJEE]0974-2158International Journal of Electronics and Communication Engineering [IJECE]0974-2166International Journal of Electronic and Electrical Engineering [IJEEE]0974-2174International Journal of Electronics Networks Devices and Field [IJENDF]0974-2182International Journal of Electrical and Computer Engineering [IJEC]0974-2190International Journal of Microcircuits and Electronic [IJME]0974-2204International Journal of Photonics [IJP]0974-2212International Journal of Industrial Electronics and Control [IJIEC]0974-2220Advances in Wireless and Mobile Communications [AWMC]0973-6972International Journal of Wireless Networks and Communications [IJWNC]0975-6507International Journal of Electronics Engineering Research [IJEER]0975-6450International Journal of Applied Engineering Research [IJAER]1087-1090International Journal of Wireless Communication and Simulation [IJWCS]2231-1254Advances in Electronic and Electric Engineering [AEEE]2231-1297Global Journal of Electronic and Communication Research [GJECR]2249-314XInternational Journal of Electronic and Communication Research [IJECR]2231-1246International Journal of Mobile Communication amp Networking [IJMCN]2231-1203Global Journal of Electronic and Communication Engg amp Technology [GJECET] International Journal of Communication Engineering and Technology [IJCET]2277-3150International Journal of Electronic Engineering and Technology [IJEET]2249-3085Journal of Nonlinear Analysis and Applications [JNAA]
CEL-Solar Photovoltaic Group The function of this business unit is to manufacture and market Solar
Voltaic Cells Modules and complete systems in India amp AbroadCentral Electronics Limited (CEL) is the pioneer and one of the largest manufacturers of Solar-Photovoltaic (SPV) Cells Modules and Systems in India Through own RampD efforts spread over a decade of continuous efforts the company has converted a laboratory concept into an industrial technologyCEL with its commitment to harness the solar energy has opened up new vistas in the field of solar photovoltaic
Backed by an integrated production facility to manufacture Mono-Crystalline Silicon Solar Cells and Modules with the state-of-the-art screen-printing technology the company has supplied more than 5 Lakhs SPV Systems in India and abroad covering both rural and industrial applications CEL is in process of enhancing its modules manufacturing capacity to 40 MWp and the production is expected to start by August 2014
CEL products conform to stringent National amp International Standards The PV modules are tested for IEC 6121561730by TUV Rheinland
Our modules have been successfully tested by Solar Energy Centre (SEC) of the Ministry of Non-conventional Energy Sources (MNES) Govt of India
CEL Solar Panel Applications
SOLAR PHOTOVOLTAIC MODULES PM10
CELrsquos Solar Photovoltaic Modules type PM10 are manufactured using Mono Crystalline Silicon Solar Cells These are high quality and
high performance modules suitable for power generation These modules have excellent durability to withstand extreme temperature
and weather conditions of the high altitudes deserts and coastal regions FEATURES 1048698 Uses mono crystalline silicon Solar Cells 1048698 Suitable for DC 12V24V systems or multiple there-of 1048698 Encapsulation of cells using UV stabilized polymer (EVA) and protective back
cover using Tedler-Polyester-Tedlar 1048698 High transmission toughened glass superstrate and anodized aluminum frame
for mounting 1048698 Long service Life APPLICATIONSSOLAR PV MODULE PM10SPECIFICATION Physical Parameters Environmental Rating Specification subject to change without prior notice due to continuous in-house
improvements 1 Lighting 6 Telecommunication 2 Television 7 Refrigeration 3 Water Pumping 8 Railway Signaling 4Rural Electrification 9 Remote Resort Power 5 Power Plants
DEAL(Defence Electronics Appn Lab)Dehradun DEAL is committed to provide the required
resources infrastructure and an effective amp efficient Quality Management System for timely completion of the design and development of the productswhich shall be conforming consistently to the stated amp implied needs of the user
DEAL is also committed to ascertain the continuous improvements through the periodic review of Quality Management System
Areas of WorkDEALDehradun
Areas of Work Data Links Software Radios Satellite Communication Microwave amp Millimeter Systems Image Processing amp Analysis
DEAL Dehradun(See Multidisciplinary Engg Disciplines)
Facilities Available Center for Advanced Mechanical
Engineering (CAME) MIC Computer Aided Design Product Assurance EMI EMC
DLRL Hyderabad VISION To Be a Center of excellence in
the field of Electronic Warfare MISSION Design and development
Evaluation and ToT leading to productionization and Induction of World Class Electronic Warfare Systems Establish Self Reliance in this Critical Technology
DLRLs core competence lies in Design amp Development of Electronic Warfare systems Technologies amp Components They are listed as under SYSTEMS
Design of Electronic Warfare Systems(COMINTELINTESMECM)
Development of hardware and software of sub systems System integration and evaluation on various platforms -
vehicles ships submarines helicopters aircrafts airborne pods
TECHNOLOGIES Multi octave band antennas and radomes Multi octave band MicrowaveMillimeter Wave components amp
super components Narrow bandwide band intercept receivers Broad band high accuracy Direction Finding receivers High power transmitters for ECM Multi beam jammer transmitters Frequency Memory Loops amp Digital Radio Frequency Memories
for jammers
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Trend in Production of Electronic Goods-India
Presentation discusses CEERI(CSIR-Electronics Lab) Pilani CEL-Solar Products DEAL Dehradun BEL Delhi CDAC Pune DLRL IITDELHI (Electrical Engg Department) NIT Syllabus Springer Research Journals Various CADCAM tools Simulation Software Govt of India-Manufacturing Policies
CEERI Pilani Lab
CEERI Electronics Pilani(CSIR Lab) Agri Electronics Group Current Activities Sponsored Projects 1) Embedded Odor-Vision Sensing (OVS) System for Detection of Food Freshness Sponsoring Agency DBTDST New Delhi
Objectives To design develop and assemble the odour-vision sensor head chamber and its
interface to the embedded hardware software platform To construct the flow-injection system for calibration and tuning the OVS system
for specific food odour using appropriate neural network To acquire store and analyse responses from odourgas sensors array to different
odoursvapours and he images of various food samples to generate the data base library for food items
To implement wireless networking of different OVS systems within the region To investigate and validate the developed with the standard analytical systems like
GC-MS and ALPHA-E-nose system available in AEG CSIR-CEERI Deliverables A cost effective odour-vision sensing (OVS) system for food application
See Nature of Multi Disciplinary Engg facilities 2)To develop and Install Embedded Monitoring and Control System for RO Desalination Plants Sponsoring Agency DST New Delhi
Objectives
To develop a cost effective embedded automation system for 1000 LPH RO Plants (Brackish water TDS 2000- 5000 ppm)
To design and develop embedded hardware and software platform for monitoring and controlling of the sensors pressure regulators flow controllers control valves and water quality measurement chamber
To acquire store and analyze the water quality at different stages of operation using measurement chamber for efficient and productive operation of the plant
Deliverables
Installation of five RO automation systems at different places in Rajasthan along with CSIR-CSMCRI Bhavnagar Network Projects 1) Clean Coal Technology (TapCoal-CSC 0102)
WP-1 Coal Combustion and Gasification Technologies (CSIR-CIMFR CSIR-CMERI CSIR-CEERI CSIR-NCL CSIR-NEERI)
Objectives Development of Embedded Linux based Instrumentation and Control System for Pilot scale circulating fluidized
bed gasifier Measurement of gas composition temperature and differential pressure (at high temperature) Maintaining the stable fluidized bed (experimental) conditions (temperature 700degC Air flow rate 5-10 m3h
Coal feed rate 10 Kgh) in real time using the Embedded Linux Systems Controlling of heat exchangers and blowers Deliverables
Embedded Linux based Instrumentation and control system for Pilot scale circulating fluidized bed gasifier Unit
CEERI Pilani-Continued WP-1 Coal Combustion and Gasification Technologies (CSIR-CIMFR CSIR-CMERI CSIR-CEERI CSIR-NCL CSIR-NEERI)
Objectives Development of Embedded Linux based Instrumentation and Control System for Pilot scale circulating fluidized bed gasifier
Measurement of gas composition temperature and differential pressure (at high temperature) Maintaining the stable fluidized bed (experimental) conditions (temperature 700degC Air flow rate 5-10 m3h Coal feed rate 10
Kgh) in real time using the Embedded Linux Systems Controlling of heat exchangers and blowers Deliverables
Embedded Linux based Instrumentation and control system for Pilot scale circulating fluidized bed gasifier Unit 2) Advanced Microsensors and Microsystems (Design Development and Applications (Micro-SenSys)
WP-23 -Application Water and Food
Objectives Embedded reconfigurable smart sensorrsquos system for water and food applications Development of appropriate non-contact type smart sensing and decision making systems for freshness of food like vegetables
bakery and dairy products Deliverables Prototype of Embedded reconfigurable multi-sensorrsquos systems Prototype of Odor Vision Sensing Systems for food freshness 5)Clean Water Sustainable Options
WP2Development of real time wireless embedded multi-sensor system for monitoring and analysing water quality parameters (CSIR-NEERI CSIR- CSIR-CEERI CSIR-NCL CSIR-CGCRI and CSIR-CSIO)
Objectives
Development and demonstration of field usable devices for water quality monitoring Development and demonstration of improved technological options for water quality enhancement Enhanced knowledge
utilization and dissemination Deliverables
Prototype of real time wireless embedded multi-sensor system for water quality monitoring Lab scale demonstration of the developed system network using field water sensors [Home] [About CEERI] [RampD Programs] [Contact] Copyright copy CEERI Pilani
CEERI Pilani-CSIR Embedded Linux based Instrumentation and control system for Pilot
scale circulating fluidized bed gasifier Unit 2) Advanced Microsensors and Microsystems (Design
Development and Applications (Micro-SenSys) WP-23 -Application Water and Food
Objectives Embedded reconfigurable smart sensorrsquos system for water and food
applications Development of appropriate non-contact type smart sensing and
decision making systems for freshness of food like vegetables bakery and dairy products
Deliverables Prototype of Embedded reconfigurable multi-sensorrsquos systems
Prototype of Odor Vision Sensing Systems for food freshness 5)Clean Water Sustainable Options
WP2Development of real time wireless embedded multi-sensor system for monitoring and analysing water quality parameters (CSIR-NEERI CSIR- CSIR-CEERI CSIR-NCL CSIR-CGCRI and CSIR-CSIO)
CEERIPilani Achievements of Agri Electronics Group Completed Projects till December 2013 1) Remotely Monitored and Controlled High Capacity RO Plant for
desalination of Sea Water
Sponsored DST (WTI) Implementation CSMCRI amp CEERI
TechnicalScientific Achievements
The following tasks were successfully completed during the period at CSMCRI Bhavnagar by CEERI Pilani and CSMCRI team
Installation and testing of Embedded Controller along with PC wireless connectivity for the two stage sea water desalination RO plant at CSMCRI
The various operating modes of running the RO plant are tested for two stages successfully (process mode water wash mode chemical wash mode)
Remote control and monitoring of the plant is implemented using LabVIEW software
The plant is successfully controlled and tested remotely from Nov 2012 to Dec 2013
CEERI-Smart Pond Management System for Fresh Water Aquaculture
Sponsored DBT Implementation CSIR-CEERI ICAR-CIFA Bhubaneswar
This is combined project with CIFA Bhuvaneshwar funded by DBT Govt of India The developed Embedded Platform based systems monitor all critical parameters of the pond and predicts the stress factor on the fish prawn so that the farmer can take preventive action in advance Wireless protocol is developed for integrating different systems developed under this project Systems developed under this project are
Embedded Smart Motorized Boat for Water and Aquaculture (large Ponds)
Auto Feeder System (Small Ponds) Water Quality Systems
Electronics System Areas of ResearchbullAgri-ElectronicsbullEmbedded SystemsbullDigital SystemsbullPower Electronics
Electron Tubes Areas of ResearchbullGyrotronbullKlystronbullMagnetrons
Plasma DevicesbullTraveling Wave Tubes Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
CEERIPilani
Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
MEMS and Microsensors Group Current Activities Research AreasbullDesign Development of MEMS
Pressure Sensors 1Design Fabrication Packaging for Testing and Calibration 2Piezoresistive Piezoelectric Pressure Sensors 3Bulk and Surface Micromachined Capacitive Pressure Sensors 4Piezoresistive Load Cells 5DRIE based MEMS Absolute Pressure SensorbullDesign and Development of MEMS Ultrasonic Transducers 1Development of Process Technolgy and Device Fabrication 2Packaging Testing and Characterization 3Development of Wafer-Bonding Technology for Membrane FormationbullDesign and Development of Bio-Sensors 1Design and Fabrication of Micro-Cantilever for Bio-Sensing 2Design and Fabrication of ISFET 3Design and Development of Lab-on-Chip Microfluidics 4Design and Fabrication of Microsensors for Biomedical Food and Environmental ApplicationsbullDesign and Development of MEMS Inertial Sensors 1Design and Simulations of Rate MEMS Gyroscopes 2Design and Simulations of LIGA Technology based Interdigitated Comb Drive Accelerometer 3Fabrication of Accelerometer with DaCM using DRIEbullDesign and Development of Micro-Wave MEMS 1Design and Simulation for parameter extraction of RF Switches Phase Shifters Inductors Antenna Wave Guide RF couplers Filters Resonators Fabrication of Phase Shifter DevicesbullFabrication of MEMS Ultrasonic Transducer for Non-Destructive Testing
Springer Research Journals Electric Electronics and Communication EngineeringISSN NoInternational
Journal of Electrical Engineering [IJEE]0974-2158International Journal of Electronics and Communication Engineering [IJECE]0974-2166International Journal of Electronic and Electrical Engineering [IJEEE]0974-2174International Journal of Electronics Networks Devices and Field [IJENDF]0974-2182International Journal of Electrical and Computer Engineering [IJEC]0974-2190International Journal of Microcircuits and Electronic [IJME]0974-2204International Journal of Photonics [IJP]0974-2212International Journal of Industrial Electronics and Control [IJIEC]0974-2220Advances in Wireless and Mobile Communications [AWMC]0973-6972International Journal of Wireless Networks and Communications [IJWNC]0975-6507International Journal of Electronics Engineering Research [IJEER]0975-6450International Journal of Applied Engineering Research [IJAER]1087-1090International Journal of Wireless Communication and Simulation [IJWCS]2231-1254Advances in Electronic and Electric Engineering [AEEE]2231-1297Global Journal of Electronic and Communication Research [GJECR]2249-314XInternational Journal of Electronic and Communication Research [IJECR]2231-1246International Journal of Mobile Communication amp Networking [IJMCN]2231-1203Global Journal of Electronic and Communication Engg amp Technology [GJECET] International Journal of Communication Engineering and Technology [IJCET]2277-3150International Journal of Electronic Engineering and Technology [IJEET]2249-3085Journal of Nonlinear Analysis and Applications [JNAA]
CEL-Solar Photovoltaic Group The function of this business unit is to manufacture and market Solar
Voltaic Cells Modules and complete systems in India amp AbroadCentral Electronics Limited (CEL) is the pioneer and one of the largest manufacturers of Solar-Photovoltaic (SPV) Cells Modules and Systems in India Through own RampD efforts spread over a decade of continuous efforts the company has converted a laboratory concept into an industrial technologyCEL with its commitment to harness the solar energy has opened up new vistas in the field of solar photovoltaic
Backed by an integrated production facility to manufacture Mono-Crystalline Silicon Solar Cells and Modules with the state-of-the-art screen-printing technology the company has supplied more than 5 Lakhs SPV Systems in India and abroad covering both rural and industrial applications CEL is in process of enhancing its modules manufacturing capacity to 40 MWp and the production is expected to start by August 2014
CEL products conform to stringent National amp International Standards The PV modules are tested for IEC 6121561730by TUV Rheinland
Our modules have been successfully tested by Solar Energy Centre (SEC) of the Ministry of Non-conventional Energy Sources (MNES) Govt of India
CEL Solar Panel Applications
SOLAR PHOTOVOLTAIC MODULES PM10
CELrsquos Solar Photovoltaic Modules type PM10 are manufactured using Mono Crystalline Silicon Solar Cells These are high quality and
high performance modules suitable for power generation These modules have excellent durability to withstand extreme temperature
and weather conditions of the high altitudes deserts and coastal regions FEATURES 1048698 Uses mono crystalline silicon Solar Cells 1048698 Suitable for DC 12V24V systems or multiple there-of 1048698 Encapsulation of cells using UV stabilized polymer (EVA) and protective back
cover using Tedler-Polyester-Tedlar 1048698 High transmission toughened glass superstrate and anodized aluminum frame
for mounting 1048698 Long service Life APPLICATIONSSOLAR PV MODULE PM10SPECIFICATION Physical Parameters Environmental Rating Specification subject to change without prior notice due to continuous in-house
improvements 1 Lighting 6 Telecommunication 2 Television 7 Refrigeration 3 Water Pumping 8 Railway Signaling 4Rural Electrification 9 Remote Resort Power 5 Power Plants
DEAL(Defence Electronics Appn Lab)Dehradun DEAL is committed to provide the required
resources infrastructure and an effective amp efficient Quality Management System for timely completion of the design and development of the productswhich shall be conforming consistently to the stated amp implied needs of the user
DEAL is also committed to ascertain the continuous improvements through the periodic review of Quality Management System
Areas of WorkDEALDehradun
Areas of Work Data Links Software Radios Satellite Communication Microwave amp Millimeter Systems Image Processing amp Analysis
DEAL Dehradun(See Multidisciplinary Engg Disciplines)
Facilities Available Center for Advanced Mechanical
Engineering (CAME) MIC Computer Aided Design Product Assurance EMI EMC
DLRL Hyderabad VISION To Be a Center of excellence in
the field of Electronic Warfare MISSION Design and development
Evaluation and ToT leading to productionization and Induction of World Class Electronic Warfare Systems Establish Self Reliance in this Critical Technology
DLRLs core competence lies in Design amp Development of Electronic Warfare systems Technologies amp Components They are listed as under SYSTEMS
Design of Electronic Warfare Systems(COMINTELINTESMECM)
Development of hardware and software of sub systems System integration and evaluation on various platforms -
vehicles ships submarines helicopters aircrafts airborne pods
TECHNOLOGIES Multi octave band antennas and radomes Multi octave band MicrowaveMillimeter Wave components amp
super components Narrow bandwide band intercept receivers Broad band high accuracy Direction Finding receivers High power transmitters for ECM Multi beam jammer transmitters Frequency Memory Loops amp Digital Radio Frequency Memories
for jammers
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Presentation discusses CEERI(CSIR-Electronics Lab) Pilani CEL-Solar Products DEAL Dehradun BEL Delhi CDAC Pune DLRL IITDELHI (Electrical Engg Department) NIT Syllabus Springer Research Journals Various CADCAM tools Simulation Software Govt of India-Manufacturing Policies
CEERI Pilani Lab
CEERI Electronics Pilani(CSIR Lab) Agri Electronics Group Current Activities Sponsored Projects 1) Embedded Odor-Vision Sensing (OVS) System for Detection of Food Freshness Sponsoring Agency DBTDST New Delhi
Objectives To design develop and assemble the odour-vision sensor head chamber and its
interface to the embedded hardware software platform To construct the flow-injection system for calibration and tuning the OVS system
for specific food odour using appropriate neural network To acquire store and analyse responses from odourgas sensors array to different
odoursvapours and he images of various food samples to generate the data base library for food items
To implement wireless networking of different OVS systems within the region To investigate and validate the developed with the standard analytical systems like
GC-MS and ALPHA-E-nose system available in AEG CSIR-CEERI Deliverables A cost effective odour-vision sensing (OVS) system for food application
See Nature of Multi Disciplinary Engg facilities 2)To develop and Install Embedded Monitoring and Control System for RO Desalination Plants Sponsoring Agency DST New Delhi
Objectives
To develop a cost effective embedded automation system for 1000 LPH RO Plants (Brackish water TDS 2000- 5000 ppm)
To design and develop embedded hardware and software platform for monitoring and controlling of the sensors pressure regulators flow controllers control valves and water quality measurement chamber
To acquire store and analyze the water quality at different stages of operation using measurement chamber for efficient and productive operation of the plant
Deliverables
Installation of five RO automation systems at different places in Rajasthan along with CSIR-CSMCRI Bhavnagar Network Projects 1) Clean Coal Technology (TapCoal-CSC 0102)
WP-1 Coal Combustion and Gasification Technologies (CSIR-CIMFR CSIR-CMERI CSIR-CEERI CSIR-NCL CSIR-NEERI)
Objectives Development of Embedded Linux based Instrumentation and Control System for Pilot scale circulating fluidized
bed gasifier Measurement of gas composition temperature and differential pressure (at high temperature) Maintaining the stable fluidized bed (experimental) conditions (temperature 700degC Air flow rate 5-10 m3h
Coal feed rate 10 Kgh) in real time using the Embedded Linux Systems Controlling of heat exchangers and blowers Deliverables
Embedded Linux based Instrumentation and control system for Pilot scale circulating fluidized bed gasifier Unit
CEERI Pilani-Continued WP-1 Coal Combustion and Gasification Technologies (CSIR-CIMFR CSIR-CMERI CSIR-CEERI CSIR-NCL CSIR-NEERI)
Objectives Development of Embedded Linux based Instrumentation and Control System for Pilot scale circulating fluidized bed gasifier
Measurement of gas composition temperature and differential pressure (at high temperature) Maintaining the stable fluidized bed (experimental) conditions (temperature 700degC Air flow rate 5-10 m3h Coal feed rate 10
Kgh) in real time using the Embedded Linux Systems Controlling of heat exchangers and blowers Deliverables
Embedded Linux based Instrumentation and control system for Pilot scale circulating fluidized bed gasifier Unit 2) Advanced Microsensors and Microsystems (Design Development and Applications (Micro-SenSys)
WP-23 -Application Water and Food
Objectives Embedded reconfigurable smart sensorrsquos system for water and food applications Development of appropriate non-contact type smart sensing and decision making systems for freshness of food like vegetables
bakery and dairy products Deliverables Prototype of Embedded reconfigurable multi-sensorrsquos systems Prototype of Odor Vision Sensing Systems for food freshness 5)Clean Water Sustainable Options
WP2Development of real time wireless embedded multi-sensor system for monitoring and analysing water quality parameters (CSIR-NEERI CSIR- CSIR-CEERI CSIR-NCL CSIR-CGCRI and CSIR-CSIO)
Objectives
Development and demonstration of field usable devices for water quality monitoring Development and demonstration of improved technological options for water quality enhancement Enhanced knowledge
utilization and dissemination Deliverables
Prototype of real time wireless embedded multi-sensor system for water quality monitoring Lab scale demonstration of the developed system network using field water sensors [Home] [About CEERI] [RampD Programs] [Contact] Copyright copy CEERI Pilani
CEERI Pilani-CSIR Embedded Linux based Instrumentation and control system for Pilot
scale circulating fluidized bed gasifier Unit 2) Advanced Microsensors and Microsystems (Design
Development and Applications (Micro-SenSys) WP-23 -Application Water and Food
Objectives Embedded reconfigurable smart sensorrsquos system for water and food
applications Development of appropriate non-contact type smart sensing and
decision making systems for freshness of food like vegetables bakery and dairy products
Deliverables Prototype of Embedded reconfigurable multi-sensorrsquos systems
Prototype of Odor Vision Sensing Systems for food freshness 5)Clean Water Sustainable Options
WP2Development of real time wireless embedded multi-sensor system for monitoring and analysing water quality parameters (CSIR-NEERI CSIR- CSIR-CEERI CSIR-NCL CSIR-CGCRI and CSIR-CSIO)
CEERIPilani Achievements of Agri Electronics Group Completed Projects till December 2013 1) Remotely Monitored and Controlled High Capacity RO Plant for
desalination of Sea Water
Sponsored DST (WTI) Implementation CSMCRI amp CEERI
TechnicalScientific Achievements
The following tasks were successfully completed during the period at CSMCRI Bhavnagar by CEERI Pilani and CSMCRI team
Installation and testing of Embedded Controller along with PC wireless connectivity for the two stage sea water desalination RO plant at CSMCRI
The various operating modes of running the RO plant are tested for two stages successfully (process mode water wash mode chemical wash mode)
Remote control and monitoring of the plant is implemented using LabVIEW software
The plant is successfully controlled and tested remotely from Nov 2012 to Dec 2013
CEERI-Smart Pond Management System for Fresh Water Aquaculture
Sponsored DBT Implementation CSIR-CEERI ICAR-CIFA Bhubaneswar
This is combined project with CIFA Bhuvaneshwar funded by DBT Govt of India The developed Embedded Platform based systems monitor all critical parameters of the pond and predicts the stress factor on the fish prawn so that the farmer can take preventive action in advance Wireless protocol is developed for integrating different systems developed under this project Systems developed under this project are
Embedded Smart Motorized Boat for Water and Aquaculture (large Ponds)
Auto Feeder System (Small Ponds) Water Quality Systems
Electronics System Areas of ResearchbullAgri-ElectronicsbullEmbedded SystemsbullDigital SystemsbullPower Electronics
Electron Tubes Areas of ResearchbullGyrotronbullKlystronbullMagnetrons
Plasma DevicesbullTraveling Wave Tubes Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
CEERIPilani
Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
MEMS and Microsensors Group Current Activities Research AreasbullDesign Development of MEMS
Pressure Sensors 1Design Fabrication Packaging for Testing and Calibration 2Piezoresistive Piezoelectric Pressure Sensors 3Bulk and Surface Micromachined Capacitive Pressure Sensors 4Piezoresistive Load Cells 5DRIE based MEMS Absolute Pressure SensorbullDesign and Development of MEMS Ultrasonic Transducers 1Development of Process Technolgy and Device Fabrication 2Packaging Testing and Characterization 3Development of Wafer-Bonding Technology for Membrane FormationbullDesign and Development of Bio-Sensors 1Design and Fabrication of Micro-Cantilever for Bio-Sensing 2Design and Fabrication of ISFET 3Design and Development of Lab-on-Chip Microfluidics 4Design and Fabrication of Microsensors for Biomedical Food and Environmental ApplicationsbullDesign and Development of MEMS Inertial Sensors 1Design and Simulations of Rate MEMS Gyroscopes 2Design and Simulations of LIGA Technology based Interdigitated Comb Drive Accelerometer 3Fabrication of Accelerometer with DaCM using DRIEbullDesign and Development of Micro-Wave MEMS 1Design and Simulation for parameter extraction of RF Switches Phase Shifters Inductors Antenna Wave Guide RF couplers Filters Resonators Fabrication of Phase Shifter DevicesbullFabrication of MEMS Ultrasonic Transducer for Non-Destructive Testing
Springer Research Journals Electric Electronics and Communication EngineeringISSN NoInternational
Journal of Electrical Engineering [IJEE]0974-2158International Journal of Electronics and Communication Engineering [IJECE]0974-2166International Journal of Electronic and Electrical Engineering [IJEEE]0974-2174International Journal of Electronics Networks Devices and Field [IJENDF]0974-2182International Journal of Electrical and Computer Engineering [IJEC]0974-2190International Journal of Microcircuits and Electronic [IJME]0974-2204International Journal of Photonics [IJP]0974-2212International Journal of Industrial Electronics and Control [IJIEC]0974-2220Advances in Wireless and Mobile Communications [AWMC]0973-6972International Journal of Wireless Networks and Communications [IJWNC]0975-6507International Journal of Electronics Engineering Research [IJEER]0975-6450International Journal of Applied Engineering Research [IJAER]1087-1090International Journal of Wireless Communication and Simulation [IJWCS]2231-1254Advances in Electronic and Electric Engineering [AEEE]2231-1297Global Journal of Electronic and Communication Research [GJECR]2249-314XInternational Journal of Electronic and Communication Research [IJECR]2231-1246International Journal of Mobile Communication amp Networking [IJMCN]2231-1203Global Journal of Electronic and Communication Engg amp Technology [GJECET] International Journal of Communication Engineering and Technology [IJCET]2277-3150International Journal of Electronic Engineering and Technology [IJEET]2249-3085Journal of Nonlinear Analysis and Applications [JNAA]
CEL-Solar Photovoltaic Group The function of this business unit is to manufacture and market Solar
Voltaic Cells Modules and complete systems in India amp AbroadCentral Electronics Limited (CEL) is the pioneer and one of the largest manufacturers of Solar-Photovoltaic (SPV) Cells Modules and Systems in India Through own RampD efforts spread over a decade of continuous efforts the company has converted a laboratory concept into an industrial technologyCEL with its commitment to harness the solar energy has opened up new vistas in the field of solar photovoltaic
Backed by an integrated production facility to manufacture Mono-Crystalline Silicon Solar Cells and Modules with the state-of-the-art screen-printing technology the company has supplied more than 5 Lakhs SPV Systems in India and abroad covering both rural and industrial applications CEL is in process of enhancing its modules manufacturing capacity to 40 MWp and the production is expected to start by August 2014
CEL products conform to stringent National amp International Standards The PV modules are tested for IEC 6121561730by TUV Rheinland
Our modules have been successfully tested by Solar Energy Centre (SEC) of the Ministry of Non-conventional Energy Sources (MNES) Govt of India
CEL Solar Panel Applications
SOLAR PHOTOVOLTAIC MODULES PM10
CELrsquos Solar Photovoltaic Modules type PM10 are manufactured using Mono Crystalline Silicon Solar Cells These are high quality and
high performance modules suitable for power generation These modules have excellent durability to withstand extreme temperature
and weather conditions of the high altitudes deserts and coastal regions FEATURES 1048698 Uses mono crystalline silicon Solar Cells 1048698 Suitable for DC 12V24V systems or multiple there-of 1048698 Encapsulation of cells using UV stabilized polymer (EVA) and protective back
cover using Tedler-Polyester-Tedlar 1048698 High transmission toughened glass superstrate and anodized aluminum frame
for mounting 1048698 Long service Life APPLICATIONSSOLAR PV MODULE PM10SPECIFICATION Physical Parameters Environmental Rating Specification subject to change without prior notice due to continuous in-house
improvements 1 Lighting 6 Telecommunication 2 Television 7 Refrigeration 3 Water Pumping 8 Railway Signaling 4Rural Electrification 9 Remote Resort Power 5 Power Plants
DEAL(Defence Electronics Appn Lab)Dehradun DEAL is committed to provide the required
resources infrastructure and an effective amp efficient Quality Management System for timely completion of the design and development of the productswhich shall be conforming consistently to the stated amp implied needs of the user
DEAL is also committed to ascertain the continuous improvements through the periodic review of Quality Management System
Areas of WorkDEALDehradun
Areas of Work Data Links Software Radios Satellite Communication Microwave amp Millimeter Systems Image Processing amp Analysis
DEAL Dehradun(See Multidisciplinary Engg Disciplines)
Facilities Available Center for Advanced Mechanical
Engineering (CAME) MIC Computer Aided Design Product Assurance EMI EMC
DLRL Hyderabad VISION To Be a Center of excellence in
the field of Electronic Warfare MISSION Design and development
Evaluation and ToT leading to productionization and Induction of World Class Electronic Warfare Systems Establish Self Reliance in this Critical Technology
DLRLs core competence lies in Design amp Development of Electronic Warfare systems Technologies amp Components They are listed as under SYSTEMS
Design of Electronic Warfare Systems(COMINTELINTESMECM)
Development of hardware and software of sub systems System integration and evaluation on various platforms -
vehicles ships submarines helicopters aircrafts airborne pods
TECHNOLOGIES Multi octave band antennas and radomes Multi octave band MicrowaveMillimeter Wave components amp
super components Narrow bandwide band intercept receivers Broad band high accuracy Direction Finding receivers High power transmitters for ECM Multi beam jammer transmitters Frequency Memory Loops amp Digital Radio Frequency Memories
for jammers
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
CEERI Pilani Lab
CEERI Electronics Pilani(CSIR Lab) Agri Electronics Group Current Activities Sponsored Projects 1) Embedded Odor-Vision Sensing (OVS) System for Detection of Food Freshness Sponsoring Agency DBTDST New Delhi
Objectives To design develop and assemble the odour-vision sensor head chamber and its
interface to the embedded hardware software platform To construct the flow-injection system for calibration and tuning the OVS system
for specific food odour using appropriate neural network To acquire store and analyse responses from odourgas sensors array to different
odoursvapours and he images of various food samples to generate the data base library for food items
To implement wireless networking of different OVS systems within the region To investigate and validate the developed with the standard analytical systems like
GC-MS and ALPHA-E-nose system available in AEG CSIR-CEERI Deliverables A cost effective odour-vision sensing (OVS) system for food application
See Nature of Multi Disciplinary Engg facilities 2)To develop and Install Embedded Monitoring and Control System for RO Desalination Plants Sponsoring Agency DST New Delhi
Objectives
To develop a cost effective embedded automation system for 1000 LPH RO Plants (Brackish water TDS 2000- 5000 ppm)
To design and develop embedded hardware and software platform for monitoring and controlling of the sensors pressure regulators flow controllers control valves and water quality measurement chamber
To acquire store and analyze the water quality at different stages of operation using measurement chamber for efficient and productive operation of the plant
Deliverables
Installation of five RO automation systems at different places in Rajasthan along with CSIR-CSMCRI Bhavnagar Network Projects 1) Clean Coal Technology (TapCoal-CSC 0102)
WP-1 Coal Combustion and Gasification Technologies (CSIR-CIMFR CSIR-CMERI CSIR-CEERI CSIR-NCL CSIR-NEERI)
Objectives Development of Embedded Linux based Instrumentation and Control System for Pilot scale circulating fluidized
bed gasifier Measurement of gas composition temperature and differential pressure (at high temperature) Maintaining the stable fluidized bed (experimental) conditions (temperature 700degC Air flow rate 5-10 m3h
Coal feed rate 10 Kgh) in real time using the Embedded Linux Systems Controlling of heat exchangers and blowers Deliverables
Embedded Linux based Instrumentation and control system for Pilot scale circulating fluidized bed gasifier Unit
CEERI Pilani-Continued WP-1 Coal Combustion and Gasification Technologies (CSIR-CIMFR CSIR-CMERI CSIR-CEERI CSIR-NCL CSIR-NEERI)
Objectives Development of Embedded Linux based Instrumentation and Control System for Pilot scale circulating fluidized bed gasifier
Measurement of gas composition temperature and differential pressure (at high temperature) Maintaining the stable fluidized bed (experimental) conditions (temperature 700degC Air flow rate 5-10 m3h Coal feed rate 10
Kgh) in real time using the Embedded Linux Systems Controlling of heat exchangers and blowers Deliverables
Embedded Linux based Instrumentation and control system for Pilot scale circulating fluidized bed gasifier Unit 2) Advanced Microsensors and Microsystems (Design Development and Applications (Micro-SenSys)
WP-23 -Application Water and Food
Objectives Embedded reconfigurable smart sensorrsquos system for water and food applications Development of appropriate non-contact type smart sensing and decision making systems for freshness of food like vegetables
bakery and dairy products Deliverables Prototype of Embedded reconfigurable multi-sensorrsquos systems Prototype of Odor Vision Sensing Systems for food freshness 5)Clean Water Sustainable Options
WP2Development of real time wireless embedded multi-sensor system for monitoring and analysing water quality parameters (CSIR-NEERI CSIR- CSIR-CEERI CSIR-NCL CSIR-CGCRI and CSIR-CSIO)
Objectives
Development and demonstration of field usable devices for water quality monitoring Development and demonstration of improved technological options for water quality enhancement Enhanced knowledge
utilization and dissemination Deliverables
Prototype of real time wireless embedded multi-sensor system for water quality monitoring Lab scale demonstration of the developed system network using field water sensors [Home] [About CEERI] [RampD Programs] [Contact] Copyright copy CEERI Pilani
CEERI Pilani-CSIR Embedded Linux based Instrumentation and control system for Pilot
scale circulating fluidized bed gasifier Unit 2) Advanced Microsensors and Microsystems (Design
Development and Applications (Micro-SenSys) WP-23 -Application Water and Food
Objectives Embedded reconfigurable smart sensorrsquos system for water and food
applications Development of appropriate non-contact type smart sensing and
decision making systems for freshness of food like vegetables bakery and dairy products
Deliverables Prototype of Embedded reconfigurable multi-sensorrsquos systems
Prototype of Odor Vision Sensing Systems for food freshness 5)Clean Water Sustainable Options
WP2Development of real time wireless embedded multi-sensor system for monitoring and analysing water quality parameters (CSIR-NEERI CSIR- CSIR-CEERI CSIR-NCL CSIR-CGCRI and CSIR-CSIO)
CEERIPilani Achievements of Agri Electronics Group Completed Projects till December 2013 1) Remotely Monitored and Controlled High Capacity RO Plant for
desalination of Sea Water
Sponsored DST (WTI) Implementation CSMCRI amp CEERI
TechnicalScientific Achievements
The following tasks were successfully completed during the period at CSMCRI Bhavnagar by CEERI Pilani and CSMCRI team
Installation and testing of Embedded Controller along with PC wireless connectivity for the two stage sea water desalination RO plant at CSMCRI
The various operating modes of running the RO plant are tested for two stages successfully (process mode water wash mode chemical wash mode)
Remote control and monitoring of the plant is implemented using LabVIEW software
The plant is successfully controlled and tested remotely from Nov 2012 to Dec 2013
CEERI-Smart Pond Management System for Fresh Water Aquaculture
Sponsored DBT Implementation CSIR-CEERI ICAR-CIFA Bhubaneswar
This is combined project with CIFA Bhuvaneshwar funded by DBT Govt of India The developed Embedded Platform based systems monitor all critical parameters of the pond and predicts the stress factor on the fish prawn so that the farmer can take preventive action in advance Wireless protocol is developed for integrating different systems developed under this project Systems developed under this project are
Embedded Smart Motorized Boat for Water and Aquaculture (large Ponds)
Auto Feeder System (Small Ponds) Water Quality Systems
Electronics System Areas of ResearchbullAgri-ElectronicsbullEmbedded SystemsbullDigital SystemsbullPower Electronics
Electron Tubes Areas of ResearchbullGyrotronbullKlystronbullMagnetrons
Plasma DevicesbullTraveling Wave Tubes Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
CEERIPilani
Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
MEMS and Microsensors Group Current Activities Research AreasbullDesign Development of MEMS
Pressure Sensors 1Design Fabrication Packaging for Testing and Calibration 2Piezoresistive Piezoelectric Pressure Sensors 3Bulk and Surface Micromachined Capacitive Pressure Sensors 4Piezoresistive Load Cells 5DRIE based MEMS Absolute Pressure SensorbullDesign and Development of MEMS Ultrasonic Transducers 1Development of Process Technolgy and Device Fabrication 2Packaging Testing and Characterization 3Development of Wafer-Bonding Technology for Membrane FormationbullDesign and Development of Bio-Sensors 1Design and Fabrication of Micro-Cantilever for Bio-Sensing 2Design and Fabrication of ISFET 3Design and Development of Lab-on-Chip Microfluidics 4Design and Fabrication of Microsensors for Biomedical Food and Environmental ApplicationsbullDesign and Development of MEMS Inertial Sensors 1Design and Simulations of Rate MEMS Gyroscopes 2Design and Simulations of LIGA Technology based Interdigitated Comb Drive Accelerometer 3Fabrication of Accelerometer with DaCM using DRIEbullDesign and Development of Micro-Wave MEMS 1Design and Simulation for parameter extraction of RF Switches Phase Shifters Inductors Antenna Wave Guide RF couplers Filters Resonators Fabrication of Phase Shifter DevicesbullFabrication of MEMS Ultrasonic Transducer for Non-Destructive Testing
Springer Research Journals Electric Electronics and Communication EngineeringISSN NoInternational
Journal of Electrical Engineering [IJEE]0974-2158International Journal of Electronics and Communication Engineering [IJECE]0974-2166International Journal of Electronic and Electrical Engineering [IJEEE]0974-2174International Journal of Electronics Networks Devices and Field [IJENDF]0974-2182International Journal of Electrical and Computer Engineering [IJEC]0974-2190International Journal of Microcircuits and Electronic [IJME]0974-2204International Journal of Photonics [IJP]0974-2212International Journal of Industrial Electronics and Control [IJIEC]0974-2220Advances in Wireless and Mobile Communications [AWMC]0973-6972International Journal of Wireless Networks and Communications [IJWNC]0975-6507International Journal of Electronics Engineering Research [IJEER]0975-6450International Journal of Applied Engineering Research [IJAER]1087-1090International Journal of Wireless Communication and Simulation [IJWCS]2231-1254Advances in Electronic and Electric Engineering [AEEE]2231-1297Global Journal of Electronic and Communication Research [GJECR]2249-314XInternational Journal of Electronic and Communication Research [IJECR]2231-1246International Journal of Mobile Communication amp Networking [IJMCN]2231-1203Global Journal of Electronic and Communication Engg amp Technology [GJECET] International Journal of Communication Engineering and Technology [IJCET]2277-3150International Journal of Electronic Engineering and Technology [IJEET]2249-3085Journal of Nonlinear Analysis and Applications [JNAA]
CEL-Solar Photovoltaic Group The function of this business unit is to manufacture and market Solar
Voltaic Cells Modules and complete systems in India amp AbroadCentral Electronics Limited (CEL) is the pioneer and one of the largest manufacturers of Solar-Photovoltaic (SPV) Cells Modules and Systems in India Through own RampD efforts spread over a decade of continuous efforts the company has converted a laboratory concept into an industrial technologyCEL with its commitment to harness the solar energy has opened up new vistas in the field of solar photovoltaic
Backed by an integrated production facility to manufacture Mono-Crystalline Silicon Solar Cells and Modules with the state-of-the-art screen-printing technology the company has supplied more than 5 Lakhs SPV Systems in India and abroad covering both rural and industrial applications CEL is in process of enhancing its modules manufacturing capacity to 40 MWp and the production is expected to start by August 2014
CEL products conform to stringent National amp International Standards The PV modules are tested for IEC 6121561730by TUV Rheinland
Our modules have been successfully tested by Solar Energy Centre (SEC) of the Ministry of Non-conventional Energy Sources (MNES) Govt of India
CEL Solar Panel Applications
SOLAR PHOTOVOLTAIC MODULES PM10
CELrsquos Solar Photovoltaic Modules type PM10 are manufactured using Mono Crystalline Silicon Solar Cells These are high quality and
high performance modules suitable for power generation These modules have excellent durability to withstand extreme temperature
and weather conditions of the high altitudes deserts and coastal regions FEATURES 1048698 Uses mono crystalline silicon Solar Cells 1048698 Suitable for DC 12V24V systems or multiple there-of 1048698 Encapsulation of cells using UV stabilized polymer (EVA) and protective back
cover using Tedler-Polyester-Tedlar 1048698 High transmission toughened glass superstrate and anodized aluminum frame
for mounting 1048698 Long service Life APPLICATIONSSOLAR PV MODULE PM10SPECIFICATION Physical Parameters Environmental Rating Specification subject to change without prior notice due to continuous in-house
improvements 1 Lighting 6 Telecommunication 2 Television 7 Refrigeration 3 Water Pumping 8 Railway Signaling 4Rural Electrification 9 Remote Resort Power 5 Power Plants
DEAL(Defence Electronics Appn Lab)Dehradun DEAL is committed to provide the required
resources infrastructure and an effective amp efficient Quality Management System for timely completion of the design and development of the productswhich shall be conforming consistently to the stated amp implied needs of the user
DEAL is also committed to ascertain the continuous improvements through the periodic review of Quality Management System
Areas of WorkDEALDehradun
Areas of Work Data Links Software Radios Satellite Communication Microwave amp Millimeter Systems Image Processing amp Analysis
DEAL Dehradun(See Multidisciplinary Engg Disciplines)
Facilities Available Center for Advanced Mechanical
Engineering (CAME) MIC Computer Aided Design Product Assurance EMI EMC
DLRL Hyderabad VISION To Be a Center of excellence in
the field of Electronic Warfare MISSION Design and development
Evaluation and ToT leading to productionization and Induction of World Class Electronic Warfare Systems Establish Self Reliance in this Critical Technology
DLRLs core competence lies in Design amp Development of Electronic Warfare systems Technologies amp Components They are listed as under SYSTEMS
Design of Electronic Warfare Systems(COMINTELINTESMECM)
Development of hardware and software of sub systems System integration and evaluation on various platforms -
vehicles ships submarines helicopters aircrafts airborne pods
TECHNOLOGIES Multi octave band antennas and radomes Multi octave band MicrowaveMillimeter Wave components amp
super components Narrow bandwide band intercept receivers Broad band high accuracy Direction Finding receivers High power transmitters for ECM Multi beam jammer transmitters Frequency Memory Loops amp Digital Radio Frequency Memories
for jammers
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
CEERI Electronics Pilani(CSIR Lab) Agri Electronics Group Current Activities Sponsored Projects 1) Embedded Odor-Vision Sensing (OVS) System for Detection of Food Freshness Sponsoring Agency DBTDST New Delhi
Objectives To design develop and assemble the odour-vision sensor head chamber and its
interface to the embedded hardware software platform To construct the flow-injection system for calibration and tuning the OVS system
for specific food odour using appropriate neural network To acquire store and analyse responses from odourgas sensors array to different
odoursvapours and he images of various food samples to generate the data base library for food items
To implement wireless networking of different OVS systems within the region To investigate and validate the developed with the standard analytical systems like
GC-MS and ALPHA-E-nose system available in AEG CSIR-CEERI Deliverables A cost effective odour-vision sensing (OVS) system for food application
See Nature of Multi Disciplinary Engg facilities 2)To develop and Install Embedded Monitoring and Control System for RO Desalination Plants Sponsoring Agency DST New Delhi
Objectives
To develop a cost effective embedded automation system for 1000 LPH RO Plants (Brackish water TDS 2000- 5000 ppm)
To design and develop embedded hardware and software platform for monitoring and controlling of the sensors pressure regulators flow controllers control valves and water quality measurement chamber
To acquire store and analyze the water quality at different stages of operation using measurement chamber for efficient and productive operation of the plant
Deliverables
Installation of five RO automation systems at different places in Rajasthan along with CSIR-CSMCRI Bhavnagar Network Projects 1) Clean Coal Technology (TapCoal-CSC 0102)
WP-1 Coal Combustion and Gasification Technologies (CSIR-CIMFR CSIR-CMERI CSIR-CEERI CSIR-NCL CSIR-NEERI)
Objectives Development of Embedded Linux based Instrumentation and Control System for Pilot scale circulating fluidized
bed gasifier Measurement of gas composition temperature and differential pressure (at high temperature) Maintaining the stable fluidized bed (experimental) conditions (temperature 700degC Air flow rate 5-10 m3h
Coal feed rate 10 Kgh) in real time using the Embedded Linux Systems Controlling of heat exchangers and blowers Deliverables
Embedded Linux based Instrumentation and control system for Pilot scale circulating fluidized bed gasifier Unit
CEERI Pilani-Continued WP-1 Coal Combustion and Gasification Technologies (CSIR-CIMFR CSIR-CMERI CSIR-CEERI CSIR-NCL CSIR-NEERI)
Objectives Development of Embedded Linux based Instrumentation and Control System for Pilot scale circulating fluidized bed gasifier
Measurement of gas composition temperature and differential pressure (at high temperature) Maintaining the stable fluidized bed (experimental) conditions (temperature 700degC Air flow rate 5-10 m3h Coal feed rate 10
Kgh) in real time using the Embedded Linux Systems Controlling of heat exchangers and blowers Deliverables
Embedded Linux based Instrumentation and control system for Pilot scale circulating fluidized bed gasifier Unit 2) Advanced Microsensors and Microsystems (Design Development and Applications (Micro-SenSys)
WP-23 -Application Water and Food
Objectives Embedded reconfigurable smart sensorrsquos system for water and food applications Development of appropriate non-contact type smart sensing and decision making systems for freshness of food like vegetables
bakery and dairy products Deliverables Prototype of Embedded reconfigurable multi-sensorrsquos systems Prototype of Odor Vision Sensing Systems for food freshness 5)Clean Water Sustainable Options
WP2Development of real time wireless embedded multi-sensor system for monitoring and analysing water quality parameters (CSIR-NEERI CSIR- CSIR-CEERI CSIR-NCL CSIR-CGCRI and CSIR-CSIO)
Objectives
Development and demonstration of field usable devices for water quality monitoring Development and demonstration of improved technological options for water quality enhancement Enhanced knowledge
utilization and dissemination Deliverables
Prototype of real time wireless embedded multi-sensor system for water quality monitoring Lab scale demonstration of the developed system network using field water sensors [Home] [About CEERI] [RampD Programs] [Contact] Copyright copy CEERI Pilani
CEERI Pilani-CSIR Embedded Linux based Instrumentation and control system for Pilot
scale circulating fluidized bed gasifier Unit 2) Advanced Microsensors and Microsystems (Design
Development and Applications (Micro-SenSys) WP-23 -Application Water and Food
Objectives Embedded reconfigurable smart sensorrsquos system for water and food
applications Development of appropriate non-contact type smart sensing and
decision making systems for freshness of food like vegetables bakery and dairy products
Deliverables Prototype of Embedded reconfigurable multi-sensorrsquos systems
Prototype of Odor Vision Sensing Systems for food freshness 5)Clean Water Sustainable Options
WP2Development of real time wireless embedded multi-sensor system for monitoring and analysing water quality parameters (CSIR-NEERI CSIR- CSIR-CEERI CSIR-NCL CSIR-CGCRI and CSIR-CSIO)
CEERIPilani Achievements of Agri Electronics Group Completed Projects till December 2013 1) Remotely Monitored and Controlled High Capacity RO Plant for
desalination of Sea Water
Sponsored DST (WTI) Implementation CSMCRI amp CEERI
TechnicalScientific Achievements
The following tasks were successfully completed during the period at CSMCRI Bhavnagar by CEERI Pilani and CSMCRI team
Installation and testing of Embedded Controller along with PC wireless connectivity for the two stage sea water desalination RO plant at CSMCRI
The various operating modes of running the RO plant are tested for two stages successfully (process mode water wash mode chemical wash mode)
Remote control and monitoring of the plant is implemented using LabVIEW software
The plant is successfully controlled and tested remotely from Nov 2012 to Dec 2013
CEERI-Smart Pond Management System for Fresh Water Aquaculture
Sponsored DBT Implementation CSIR-CEERI ICAR-CIFA Bhubaneswar
This is combined project with CIFA Bhuvaneshwar funded by DBT Govt of India The developed Embedded Platform based systems monitor all critical parameters of the pond and predicts the stress factor on the fish prawn so that the farmer can take preventive action in advance Wireless protocol is developed for integrating different systems developed under this project Systems developed under this project are
Embedded Smart Motorized Boat for Water and Aquaculture (large Ponds)
Auto Feeder System (Small Ponds) Water Quality Systems
Electronics System Areas of ResearchbullAgri-ElectronicsbullEmbedded SystemsbullDigital SystemsbullPower Electronics
Electron Tubes Areas of ResearchbullGyrotronbullKlystronbullMagnetrons
Plasma DevicesbullTraveling Wave Tubes Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
CEERIPilani
Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
MEMS and Microsensors Group Current Activities Research AreasbullDesign Development of MEMS
Pressure Sensors 1Design Fabrication Packaging for Testing and Calibration 2Piezoresistive Piezoelectric Pressure Sensors 3Bulk and Surface Micromachined Capacitive Pressure Sensors 4Piezoresistive Load Cells 5DRIE based MEMS Absolute Pressure SensorbullDesign and Development of MEMS Ultrasonic Transducers 1Development of Process Technolgy and Device Fabrication 2Packaging Testing and Characterization 3Development of Wafer-Bonding Technology for Membrane FormationbullDesign and Development of Bio-Sensors 1Design and Fabrication of Micro-Cantilever for Bio-Sensing 2Design and Fabrication of ISFET 3Design and Development of Lab-on-Chip Microfluidics 4Design and Fabrication of Microsensors for Biomedical Food and Environmental ApplicationsbullDesign and Development of MEMS Inertial Sensors 1Design and Simulations of Rate MEMS Gyroscopes 2Design and Simulations of LIGA Technology based Interdigitated Comb Drive Accelerometer 3Fabrication of Accelerometer with DaCM using DRIEbullDesign and Development of Micro-Wave MEMS 1Design and Simulation for parameter extraction of RF Switches Phase Shifters Inductors Antenna Wave Guide RF couplers Filters Resonators Fabrication of Phase Shifter DevicesbullFabrication of MEMS Ultrasonic Transducer for Non-Destructive Testing
Springer Research Journals Electric Electronics and Communication EngineeringISSN NoInternational
Journal of Electrical Engineering [IJEE]0974-2158International Journal of Electronics and Communication Engineering [IJECE]0974-2166International Journal of Electronic and Electrical Engineering [IJEEE]0974-2174International Journal of Electronics Networks Devices and Field [IJENDF]0974-2182International Journal of Electrical and Computer Engineering [IJEC]0974-2190International Journal of Microcircuits and Electronic [IJME]0974-2204International Journal of Photonics [IJP]0974-2212International Journal of Industrial Electronics and Control [IJIEC]0974-2220Advances in Wireless and Mobile Communications [AWMC]0973-6972International Journal of Wireless Networks and Communications [IJWNC]0975-6507International Journal of Electronics Engineering Research [IJEER]0975-6450International Journal of Applied Engineering Research [IJAER]1087-1090International Journal of Wireless Communication and Simulation [IJWCS]2231-1254Advances in Electronic and Electric Engineering [AEEE]2231-1297Global Journal of Electronic and Communication Research [GJECR]2249-314XInternational Journal of Electronic and Communication Research [IJECR]2231-1246International Journal of Mobile Communication amp Networking [IJMCN]2231-1203Global Journal of Electronic and Communication Engg amp Technology [GJECET] International Journal of Communication Engineering and Technology [IJCET]2277-3150International Journal of Electronic Engineering and Technology [IJEET]2249-3085Journal of Nonlinear Analysis and Applications [JNAA]
CEL-Solar Photovoltaic Group The function of this business unit is to manufacture and market Solar
Voltaic Cells Modules and complete systems in India amp AbroadCentral Electronics Limited (CEL) is the pioneer and one of the largest manufacturers of Solar-Photovoltaic (SPV) Cells Modules and Systems in India Through own RampD efforts spread over a decade of continuous efforts the company has converted a laboratory concept into an industrial technologyCEL with its commitment to harness the solar energy has opened up new vistas in the field of solar photovoltaic
Backed by an integrated production facility to manufacture Mono-Crystalline Silicon Solar Cells and Modules with the state-of-the-art screen-printing technology the company has supplied more than 5 Lakhs SPV Systems in India and abroad covering both rural and industrial applications CEL is in process of enhancing its modules manufacturing capacity to 40 MWp and the production is expected to start by August 2014
CEL products conform to stringent National amp International Standards The PV modules are tested for IEC 6121561730by TUV Rheinland
Our modules have been successfully tested by Solar Energy Centre (SEC) of the Ministry of Non-conventional Energy Sources (MNES) Govt of India
CEL Solar Panel Applications
SOLAR PHOTOVOLTAIC MODULES PM10
CELrsquos Solar Photovoltaic Modules type PM10 are manufactured using Mono Crystalline Silicon Solar Cells These are high quality and
high performance modules suitable for power generation These modules have excellent durability to withstand extreme temperature
and weather conditions of the high altitudes deserts and coastal regions FEATURES 1048698 Uses mono crystalline silicon Solar Cells 1048698 Suitable for DC 12V24V systems or multiple there-of 1048698 Encapsulation of cells using UV stabilized polymer (EVA) and protective back
cover using Tedler-Polyester-Tedlar 1048698 High transmission toughened glass superstrate and anodized aluminum frame
for mounting 1048698 Long service Life APPLICATIONSSOLAR PV MODULE PM10SPECIFICATION Physical Parameters Environmental Rating Specification subject to change without prior notice due to continuous in-house
improvements 1 Lighting 6 Telecommunication 2 Television 7 Refrigeration 3 Water Pumping 8 Railway Signaling 4Rural Electrification 9 Remote Resort Power 5 Power Plants
DEAL(Defence Electronics Appn Lab)Dehradun DEAL is committed to provide the required
resources infrastructure and an effective amp efficient Quality Management System for timely completion of the design and development of the productswhich shall be conforming consistently to the stated amp implied needs of the user
DEAL is also committed to ascertain the continuous improvements through the periodic review of Quality Management System
Areas of WorkDEALDehradun
Areas of Work Data Links Software Radios Satellite Communication Microwave amp Millimeter Systems Image Processing amp Analysis
DEAL Dehradun(See Multidisciplinary Engg Disciplines)
Facilities Available Center for Advanced Mechanical
Engineering (CAME) MIC Computer Aided Design Product Assurance EMI EMC
DLRL Hyderabad VISION To Be a Center of excellence in
the field of Electronic Warfare MISSION Design and development
Evaluation and ToT leading to productionization and Induction of World Class Electronic Warfare Systems Establish Self Reliance in this Critical Technology
DLRLs core competence lies in Design amp Development of Electronic Warfare systems Technologies amp Components They are listed as under SYSTEMS
Design of Electronic Warfare Systems(COMINTELINTESMECM)
Development of hardware and software of sub systems System integration and evaluation on various platforms -
vehicles ships submarines helicopters aircrafts airborne pods
TECHNOLOGIES Multi octave band antennas and radomes Multi octave band MicrowaveMillimeter Wave components amp
super components Narrow bandwide band intercept receivers Broad band high accuracy Direction Finding receivers High power transmitters for ECM Multi beam jammer transmitters Frequency Memory Loops amp Digital Radio Frequency Memories
for jammers
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
See Nature of Multi Disciplinary Engg facilities 2)To develop and Install Embedded Monitoring and Control System for RO Desalination Plants Sponsoring Agency DST New Delhi
Objectives
To develop a cost effective embedded automation system for 1000 LPH RO Plants (Brackish water TDS 2000- 5000 ppm)
To design and develop embedded hardware and software platform for monitoring and controlling of the sensors pressure regulators flow controllers control valves and water quality measurement chamber
To acquire store and analyze the water quality at different stages of operation using measurement chamber for efficient and productive operation of the plant
Deliverables
Installation of five RO automation systems at different places in Rajasthan along with CSIR-CSMCRI Bhavnagar Network Projects 1) Clean Coal Technology (TapCoal-CSC 0102)
WP-1 Coal Combustion and Gasification Technologies (CSIR-CIMFR CSIR-CMERI CSIR-CEERI CSIR-NCL CSIR-NEERI)
Objectives Development of Embedded Linux based Instrumentation and Control System for Pilot scale circulating fluidized
bed gasifier Measurement of gas composition temperature and differential pressure (at high temperature) Maintaining the stable fluidized bed (experimental) conditions (temperature 700degC Air flow rate 5-10 m3h
Coal feed rate 10 Kgh) in real time using the Embedded Linux Systems Controlling of heat exchangers and blowers Deliverables
Embedded Linux based Instrumentation and control system for Pilot scale circulating fluidized bed gasifier Unit
CEERI Pilani-Continued WP-1 Coal Combustion and Gasification Technologies (CSIR-CIMFR CSIR-CMERI CSIR-CEERI CSIR-NCL CSIR-NEERI)
Objectives Development of Embedded Linux based Instrumentation and Control System for Pilot scale circulating fluidized bed gasifier
Measurement of gas composition temperature and differential pressure (at high temperature) Maintaining the stable fluidized bed (experimental) conditions (temperature 700degC Air flow rate 5-10 m3h Coal feed rate 10
Kgh) in real time using the Embedded Linux Systems Controlling of heat exchangers and blowers Deliverables
Embedded Linux based Instrumentation and control system for Pilot scale circulating fluidized bed gasifier Unit 2) Advanced Microsensors and Microsystems (Design Development and Applications (Micro-SenSys)
WP-23 -Application Water and Food
Objectives Embedded reconfigurable smart sensorrsquos system for water and food applications Development of appropriate non-contact type smart sensing and decision making systems for freshness of food like vegetables
bakery and dairy products Deliverables Prototype of Embedded reconfigurable multi-sensorrsquos systems Prototype of Odor Vision Sensing Systems for food freshness 5)Clean Water Sustainable Options
WP2Development of real time wireless embedded multi-sensor system for monitoring and analysing water quality parameters (CSIR-NEERI CSIR- CSIR-CEERI CSIR-NCL CSIR-CGCRI and CSIR-CSIO)
Objectives
Development and demonstration of field usable devices for water quality monitoring Development and demonstration of improved technological options for water quality enhancement Enhanced knowledge
utilization and dissemination Deliverables
Prototype of real time wireless embedded multi-sensor system for water quality monitoring Lab scale demonstration of the developed system network using field water sensors [Home] [About CEERI] [RampD Programs] [Contact] Copyright copy CEERI Pilani
CEERI Pilani-CSIR Embedded Linux based Instrumentation and control system for Pilot
scale circulating fluidized bed gasifier Unit 2) Advanced Microsensors and Microsystems (Design
Development and Applications (Micro-SenSys) WP-23 -Application Water and Food
Objectives Embedded reconfigurable smart sensorrsquos system for water and food
applications Development of appropriate non-contact type smart sensing and
decision making systems for freshness of food like vegetables bakery and dairy products
Deliverables Prototype of Embedded reconfigurable multi-sensorrsquos systems
Prototype of Odor Vision Sensing Systems for food freshness 5)Clean Water Sustainable Options
WP2Development of real time wireless embedded multi-sensor system for monitoring and analysing water quality parameters (CSIR-NEERI CSIR- CSIR-CEERI CSIR-NCL CSIR-CGCRI and CSIR-CSIO)
CEERIPilani Achievements of Agri Electronics Group Completed Projects till December 2013 1) Remotely Monitored and Controlled High Capacity RO Plant for
desalination of Sea Water
Sponsored DST (WTI) Implementation CSMCRI amp CEERI
TechnicalScientific Achievements
The following tasks were successfully completed during the period at CSMCRI Bhavnagar by CEERI Pilani and CSMCRI team
Installation and testing of Embedded Controller along with PC wireless connectivity for the two stage sea water desalination RO plant at CSMCRI
The various operating modes of running the RO plant are tested for two stages successfully (process mode water wash mode chemical wash mode)
Remote control and monitoring of the plant is implemented using LabVIEW software
The plant is successfully controlled and tested remotely from Nov 2012 to Dec 2013
CEERI-Smart Pond Management System for Fresh Water Aquaculture
Sponsored DBT Implementation CSIR-CEERI ICAR-CIFA Bhubaneswar
This is combined project with CIFA Bhuvaneshwar funded by DBT Govt of India The developed Embedded Platform based systems monitor all critical parameters of the pond and predicts the stress factor on the fish prawn so that the farmer can take preventive action in advance Wireless protocol is developed for integrating different systems developed under this project Systems developed under this project are
Embedded Smart Motorized Boat for Water and Aquaculture (large Ponds)
Auto Feeder System (Small Ponds) Water Quality Systems
Electronics System Areas of ResearchbullAgri-ElectronicsbullEmbedded SystemsbullDigital SystemsbullPower Electronics
Electron Tubes Areas of ResearchbullGyrotronbullKlystronbullMagnetrons
Plasma DevicesbullTraveling Wave Tubes Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
CEERIPilani
Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
MEMS and Microsensors Group Current Activities Research AreasbullDesign Development of MEMS
Pressure Sensors 1Design Fabrication Packaging for Testing and Calibration 2Piezoresistive Piezoelectric Pressure Sensors 3Bulk and Surface Micromachined Capacitive Pressure Sensors 4Piezoresistive Load Cells 5DRIE based MEMS Absolute Pressure SensorbullDesign and Development of MEMS Ultrasonic Transducers 1Development of Process Technolgy and Device Fabrication 2Packaging Testing and Characterization 3Development of Wafer-Bonding Technology for Membrane FormationbullDesign and Development of Bio-Sensors 1Design and Fabrication of Micro-Cantilever for Bio-Sensing 2Design and Fabrication of ISFET 3Design and Development of Lab-on-Chip Microfluidics 4Design and Fabrication of Microsensors for Biomedical Food and Environmental ApplicationsbullDesign and Development of MEMS Inertial Sensors 1Design and Simulations of Rate MEMS Gyroscopes 2Design and Simulations of LIGA Technology based Interdigitated Comb Drive Accelerometer 3Fabrication of Accelerometer with DaCM using DRIEbullDesign and Development of Micro-Wave MEMS 1Design and Simulation for parameter extraction of RF Switches Phase Shifters Inductors Antenna Wave Guide RF couplers Filters Resonators Fabrication of Phase Shifter DevicesbullFabrication of MEMS Ultrasonic Transducer for Non-Destructive Testing
Springer Research Journals Electric Electronics and Communication EngineeringISSN NoInternational
Journal of Electrical Engineering [IJEE]0974-2158International Journal of Electronics and Communication Engineering [IJECE]0974-2166International Journal of Electronic and Electrical Engineering [IJEEE]0974-2174International Journal of Electronics Networks Devices and Field [IJENDF]0974-2182International Journal of Electrical and Computer Engineering [IJEC]0974-2190International Journal of Microcircuits and Electronic [IJME]0974-2204International Journal of Photonics [IJP]0974-2212International Journal of Industrial Electronics and Control [IJIEC]0974-2220Advances in Wireless and Mobile Communications [AWMC]0973-6972International Journal of Wireless Networks and Communications [IJWNC]0975-6507International Journal of Electronics Engineering Research [IJEER]0975-6450International Journal of Applied Engineering Research [IJAER]1087-1090International Journal of Wireless Communication and Simulation [IJWCS]2231-1254Advances in Electronic and Electric Engineering [AEEE]2231-1297Global Journal of Electronic and Communication Research [GJECR]2249-314XInternational Journal of Electronic and Communication Research [IJECR]2231-1246International Journal of Mobile Communication amp Networking [IJMCN]2231-1203Global Journal of Electronic and Communication Engg amp Technology [GJECET] International Journal of Communication Engineering and Technology [IJCET]2277-3150International Journal of Electronic Engineering and Technology [IJEET]2249-3085Journal of Nonlinear Analysis and Applications [JNAA]
CEL-Solar Photovoltaic Group The function of this business unit is to manufacture and market Solar
Voltaic Cells Modules and complete systems in India amp AbroadCentral Electronics Limited (CEL) is the pioneer and one of the largest manufacturers of Solar-Photovoltaic (SPV) Cells Modules and Systems in India Through own RampD efforts spread over a decade of continuous efforts the company has converted a laboratory concept into an industrial technologyCEL with its commitment to harness the solar energy has opened up new vistas in the field of solar photovoltaic
Backed by an integrated production facility to manufacture Mono-Crystalline Silicon Solar Cells and Modules with the state-of-the-art screen-printing technology the company has supplied more than 5 Lakhs SPV Systems in India and abroad covering both rural and industrial applications CEL is in process of enhancing its modules manufacturing capacity to 40 MWp and the production is expected to start by August 2014
CEL products conform to stringent National amp International Standards The PV modules are tested for IEC 6121561730by TUV Rheinland
Our modules have been successfully tested by Solar Energy Centre (SEC) of the Ministry of Non-conventional Energy Sources (MNES) Govt of India
CEL Solar Panel Applications
SOLAR PHOTOVOLTAIC MODULES PM10
CELrsquos Solar Photovoltaic Modules type PM10 are manufactured using Mono Crystalline Silicon Solar Cells These are high quality and
high performance modules suitable for power generation These modules have excellent durability to withstand extreme temperature
and weather conditions of the high altitudes deserts and coastal regions FEATURES 1048698 Uses mono crystalline silicon Solar Cells 1048698 Suitable for DC 12V24V systems or multiple there-of 1048698 Encapsulation of cells using UV stabilized polymer (EVA) and protective back
cover using Tedler-Polyester-Tedlar 1048698 High transmission toughened glass superstrate and anodized aluminum frame
for mounting 1048698 Long service Life APPLICATIONSSOLAR PV MODULE PM10SPECIFICATION Physical Parameters Environmental Rating Specification subject to change without prior notice due to continuous in-house
improvements 1 Lighting 6 Telecommunication 2 Television 7 Refrigeration 3 Water Pumping 8 Railway Signaling 4Rural Electrification 9 Remote Resort Power 5 Power Plants
DEAL(Defence Electronics Appn Lab)Dehradun DEAL is committed to provide the required
resources infrastructure and an effective amp efficient Quality Management System for timely completion of the design and development of the productswhich shall be conforming consistently to the stated amp implied needs of the user
DEAL is also committed to ascertain the continuous improvements through the periodic review of Quality Management System
Areas of WorkDEALDehradun
Areas of Work Data Links Software Radios Satellite Communication Microwave amp Millimeter Systems Image Processing amp Analysis
DEAL Dehradun(See Multidisciplinary Engg Disciplines)
Facilities Available Center for Advanced Mechanical
Engineering (CAME) MIC Computer Aided Design Product Assurance EMI EMC
DLRL Hyderabad VISION To Be a Center of excellence in
the field of Electronic Warfare MISSION Design and development
Evaluation and ToT leading to productionization and Induction of World Class Electronic Warfare Systems Establish Self Reliance in this Critical Technology
DLRLs core competence lies in Design amp Development of Electronic Warfare systems Technologies amp Components They are listed as under SYSTEMS
Design of Electronic Warfare Systems(COMINTELINTESMECM)
Development of hardware and software of sub systems System integration and evaluation on various platforms -
vehicles ships submarines helicopters aircrafts airborne pods
TECHNOLOGIES Multi octave band antennas and radomes Multi octave band MicrowaveMillimeter Wave components amp
super components Narrow bandwide band intercept receivers Broad band high accuracy Direction Finding receivers High power transmitters for ECM Multi beam jammer transmitters Frequency Memory Loops amp Digital Radio Frequency Memories
for jammers
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
CEERI Pilani-Continued WP-1 Coal Combustion and Gasification Technologies (CSIR-CIMFR CSIR-CMERI CSIR-CEERI CSIR-NCL CSIR-NEERI)
Objectives Development of Embedded Linux based Instrumentation and Control System for Pilot scale circulating fluidized bed gasifier
Measurement of gas composition temperature and differential pressure (at high temperature) Maintaining the stable fluidized bed (experimental) conditions (temperature 700degC Air flow rate 5-10 m3h Coal feed rate 10
Kgh) in real time using the Embedded Linux Systems Controlling of heat exchangers and blowers Deliverables
Embedded Linux based Instrumentation and control system for Pilot scale circulating fluidized bed gasifier Unit 2) Advanced Microsensors and Microsystems (Design Development and Applications (Micro-SenSys)
WP-23 -Application Water and Food
Objectives Embedded reconfigurable smart sensorrsquos system for water and food applications Development of appropriate non-contact type smart sensing and decision making systems for freshness of food like vegetables
bakery and dairy products Deliverables Prototype of Embedded reconfigurable multi-sensorrsquos systems Prototype of Odor Vision Sensing Systems for food freshness 5)Clean Water Sustainable Options
WP2Development of real time wireless embedded multi-sensor system for monitoring and analysing water quality parameters (CSIR-NEERI CSIR- CSIR-CEERI CSIR-NCL CSIR-CGCRI and CSIR-CSIO)
Objectives
Development and demonstration of field usable devices for water quality monitoring Development and demonstration of improved technological options for water quality enhancement Enhanced knowledge
utilization and dissemination Deliverables
Prototype of real time wireless embedded multi-sensor system for water quality monitoring Lab scale demonstration of the developed system network using field water sensors [Home] [About CEERI] [RampD Programs] [Contact] Copyright copy CEERI Pilani
CEERI Pilani-CSIR Embedded Linux based Instrumentation and control system for Pilot
scale circulating fluidized bed gasifier Unit 2) Advanced Microsensors and Microsystems (Design
Development and Applications (Micro-SenSys) WP-23 -Application Water and Food
Objectives Embedded reconfigurable smart sensorrsquos system for water and food
applications Development of appropriate non-contact type smart sensing and
decision making systems for freshness of food like vegetables bakery and dairy products
Deliverables Prototype of Embedded reconfigurable multi-sensorrsquos systems
Prototype of Odor Vision Sensing Systems for food freshness 5)Clean Water Sustainable Options
WP2Development of real time wireless embedded multi-sensor system for monitoring and analysing water quality parameters (CSIR-NEERI CSIR- CSIR-CEERI CSIR-NCL CSIR-CGCRI and CSIR-CSIO)
CEERIPilani Achievements of Agri Electronics Group Completed Projects till December 2013 1) Remotely Monitored and Controlled High Capacity RO Plant for
desalination of Sea Water
Sponsored DST (WTI) Implementation CSMCRI amp CEERI
TechnicalScientific Achievements
The following tasks were successfully completed during the period at CSMCRI Bhavnagar by CEERI Pilani and CSMCRI team
Installation and testing of Embedded Controller along with PC wireless connectivity for the two stage sea water desalination RO plant at CSMCRI
The various operating modes of running the RO plant are tested for two stages successfully (process mode water wash mode chemical wash mode)
Remote control and monitoring of the plant is implemented using LabVIEW software
The plant is successfully controlled and tested remotely from Nov 2012 to Dec 2013
CEERI-Smart Pond Management System for Fresh Water Aquaculture
Sponsored DBT Implementation CSIR-CEERI ICAR-CIFA Bhubaneswar
This is combined project with CIFA Bhuvaneshwar funded by DBT Govt of India The developed Embedded Platform based systems monitor all critical parameters of the pond and predicts the stress factor on the fish prawn so that the farmer can take preventive action in advance Wireless protocol is developed for integrating different systems developed under this project Systems developed under this project are
Embedded Smart Motorized Boat for Water and Aquaculture (large Ponds)
Auto Feeder System (Small Ponds) Water Quality Systems
Electronics System Areas of ResearchbullAgri-ElectronicsbullEmbedded SystemsbullDigital SystemsbullPower Electronics
Electron Tubes Areas of ResearchbullGyrotronbullKlystronbullMagnetrons
Plasma DevicesbullTraveling Wave Tubes Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
CEERIPilani
Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
MEMS and Microsensors Group Current Activities Research AreasbullDesign Development of MEMS
Pressure Sensors 1Design Fabrication Packaging for Testing and Calibration 2Piezoresistive Piezoelectric Pressure Sensors 3Bulk and Surface Micromachined Capacitive Pressure Sensors 4Piezoresistive Load Cells 5DRIE based MEMS Absolute Pressure SensorbullDesign and Development of MEMS Ultrasonic Transducers 1Development of Process Technolgy and Device Fabrication 2Packaging Testing and Characterization 3Development of Wafer-Bonding Technology for Membrane FormationbullDesign and Development of Bio-Sensors 1Design and Fabrication of Micro-Cantilever for Bio-Sensing 2Design and Fabrication of ISFET 3Design and Development of Lab-on-Chip Microfluidics 4Design and Fabrication of Microsensors for Biomedical Food and Environmental ApplicationsbullDesign and Development of MEMS Inertial Sensors 1Design and Simulations of Rate MEMS Gyroscopes 2Design and Simulations of LIGA Technology based Interdigitated Comb Drive Accelerometer 3Fabrication of Accelerometer with DaCM using DRIEbullDesign and Development of Micro-Wave MEMS 1Design and Simulation for parameter extraction of RF Switches Phase Shifters Inductors Antenna Wave Guide RF couplers Filters Resonators Fabrication of Phase Shifter DevicesbullFabrication of MEMS Ultrasonic Transducer for Non-Destructive Testing
Springer Research Journals Electric Electronics and Communication EngineeringISSN NoInternational
Journal of Electrical Engineering [IJEE]0974-2158International Journal of Electronics and Communication Engineering [IJECE]0974-2166International Journal of Electronic and Electrical Engineering [IJEEE]0974-2174International Journal of Electronics Networks Devices and Field [IJENDF]0974-2182International Journal of Electrical and Computer Engineering [IJEC]0974-2190International Journal of Microcircuits and Electronic [IJME]0974-2204International Journal of Photonics [IJP]0974-2212International Journal of Industrial Electronics and Control [IJIEC]0974-2220Advances in Wireless and Mobile Communications [AWMC]0973-6972International Journal of Wireless Networks and Communications [IJWNC]0975-6507International Journal of Electronics Engineering Research [IJEER]0975-6450International Journal of Applied Engineering Research [IJAER]1087-1090International Journal of Wireless Communication and Simulation [IJWCS]2231-1254Advances in Electronic and Electric Engineering [AEEE]2231-1297Global Journal of Electronic and Communication Research [GJECR]2249-314XInternational Journal of Electronic and Communication Research [IJECR]2231-1246International Journal of Mobile Communication amp Networking [IJMCN]2231-1203Global Journal of Electronic and Communication Engg amp Technology [GJECET] International Journal of Communication Engineering and Technology [IJCET]2277-3150International Journal of Electronic Engineering and Technology [IJEET]2249-3085Journal of Nonlinear Analysis and Applications [JNAA]
CEL-Solar Photovoltaic Group The function of this business unit is to manufacture and market Solar
Voltaic Cells Modules and complete systems in India amp AbroadCentral Electronics Limited (CEL) is the pioneer and one of the largest manufacturers of Solar-Photovoltaic (SPV) Cells Modules and Systems in India Through own RampD efforts spread over a decade of continuous efforts the company has converted a laboratory concept into an industrial technologyCEL with its commitment to harness the solar energy has opened up new vistas in the field of solar photovoltaic
Backed by an integrated production facility to manufacture Mono-Crystalline Silicon Solar Cells and Modules with the state-of-the-art screen-printing technology the company has supplied more than 5 Lakhs SPV Systems in India and abroad covering both rural and industrial applications CEL is in process of enhancing its modules manufacturing capacity to 40 MWp and the production is expected to start by August 2014
CEL products conform to stringent National amp International Standards The PV modules are tested for IEC 6121561730by TUV Rheinland
Our modules have been successfully tested by Solar Energy Centre (SEC) of the Ministry of Non-conventional Energy Sources (MNES) Govt of India
CEL Solar Panel Applications
SOLAR PHOTOVOLTAIC MODULES PM10
CELrsquos Solar Photovoltaic Modules type PM10 are manufactured using Mono Crystalline Silicon Solar Cells These are high quality and
high performance modules suitable for power generation These modules have excellent durability to withstand extreme temperature
and weather conditions of the high altitudes deserts and coastal regions FEATURES 1048698 Uses mono crystalline silicon Solar Cells 1048698 Suitable for DC 12V24V systems or multiple there-of 1048698 Encapsulation of cells using UV stabilized polymer (EVA) and protective back
cover using Tedler-Polyester-Tedlar 1048698 High transmission toughened glass superstrate and anodized aluminum frame
for mounting 1048698 Long service Life APPLICATIONSSOLAR PV MODULE PM10SPECIFICATION Physical Parameters Environmental Rating Specification subject to change without prior notice due to continuous in-house
improvements 1 Lighting 6 Telecommunication 2 Television 7 Refrigeration 3 Water Pumping 8 Railway Signaling 4Rural Electrification 9 Remote Resort Power 5 Power Plants
DEAL(Defence Electronics Appn Lab)Dehradun DEAL is committed to provide the required
resources infrastructure and an effective amp efficient Quality Management System for timely completion of the design and development of the productswhich shall be conforming consistently to the stated amp implied needs of the user
DEAL is also committed to ascertain the continuous improvements through the periodic review of Quality Management System
Areas of WorkDEALDehradun
Areas of Work Data Links Software Radios Satellite Communication Microwave amp Millimeter Systems Image Processing amp Analysis
DEAL Dehradun(See Multidisciplinary Engg Disciplines)
Facilities Available Center for Advanced Mechanical
Engineering (CAME) MIC Computer Aided Design Product Assurance EMI EMC
DLRL Hyderabad VISION To Be a Center of excellence in
the field of Electronic Warfare MISSION Design and development
Evaluation and ToT leading to productionization and Induction of World Class Electronic Warfare Systems Establish Self Reliance in this Critical Technology
DLRLs core competence lies in Design amp Development of Electronic Warfare systems Technologies amp Components They are listed as under SYSTEMS
Design of Electronic Warfare Systems(COMINTELINTESMECM)
Development of hardware and software of sub systems System integration and evaluation on various platforms -
vehicles ships submarines helicopters aircrafts airborne pods
TECHNOLOGIES Multi octave band antennas and radomes Multi octave band MicrowaveMillimeter Wave components amp
super components Narrow bandwide band intercept receivers Broad band high accuracy Direction Finding receivers High power transmitters for ECM Multi beam jammer transmitters Frequency Memory Loops amp Digital Radio Frequency Memories
for jammers
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
CEERI Pilani-CSIR Embedded Linux based Instrumentation and control system for Pilot
scale circulating fluidized bed gasifier Unit 2) Advanced Microsensors and Microsystems (Design
Development and Applications (Micro-SenSys) WP-23 -Application Water and Food
Objectives Embedded reconfigurable smart sensorrsquos system for water and food
applications Development of appropriate non-contact type smart sensing and
decision making systems for freshness of food like vegetables bakery and dairy products
Deliverables Prototype of Embedded reconfigurable multi-sensorrsquos systems
Prototype of Odor Vision Sensing Systems for food freshness 5)Clean Water Sustainable Options
WP2Development of real time wireless embedded multi-sensor system for monitoring and analysing water quality parameters (CSIR-NEERI CSIR- CSIR-CEERI CSIR-NCL CSIR-CGCRI and CSIR-CSIO)
CEERIPilani Achievements of Agri Electronics Group Completed Projects till December 2013 1) Remotely Monitored and Controlled High Capacity RO Plant for
desalination of Sea Water
Sponsored DST (WTI) Implementation CSMCRI amp CEERI
TechnicalScientific Achievements
The following tasks were successfully completed during the period at CSMCRI Bhavnagar by CEERI Pilani and CSMCRI team
Installation and testing of Embedded Controller along with PC wireless connectivity for the two stage sea water desalination RO plant at CSMCRI
The various operating modes of running the RO plant are tested for two stages successfully (process mode water wash mode chemical wash mode)
Remote control and monitoring of the plant is implemented using LabVIEW software
The plant is successfully controlled and tested remotely from Nov 2012 to Dec 2013
CEERI-Smart Pond Management System for Fresh Water Aquaculture
Sponsored DBT Implementation CSIR-CEERI ICAR-CIFA Bhubaneswar
This is combined project with CIFA Bhuvaneshwar funded by DBT Govt of India The developed Embedded Platform based systems monitor all critical parameters of the pond and predicts the stress factor on the fish prawn so that the farmer can take preventive action in advance Wireless protocol is developed for integrating different systems developed under this project Systems developed under this project are
Embedded Smart Motorized Boat for Water and Aquaculture (large Ponds)
Auto Feeder System (Small Ponds) Water Quality Systems
Electronics System Areas of ResearchbullAgri-ElectronicsbullEmbedded SystemsbullDigital SystemsbullPower Electronics
Electron Tubes Areas of ResearchbullGyrotronbullKlystronbullMagnetrons
Plasma DevicesbullTraveling Wave Tubes Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
CEERIPilani
Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
MEMS and Microsensors Group Current Activities Research AreasbullDesign Development of MEMS
Pressure Sensors 1Design Fabrication Packaging for Testing and Calibration 2Piezoresistive Piezoelectric Pressure Sensors 3Bulk and Surface Micromachined Capacitive Pressure Sensors 4Piezoresistive Load Cells 5DRIE based MEMS Absolute Pressure SensorbullDesign and Development of MEMS Ultrasonic Transducers 1Development of Process Technolgy and Device Fabrication 2Packaging Testing and Characterization 3Development of Wafer-Bonding Technology for Membrane FormationbullDesign and Development of Bio-Sensors 1Design and Fabrication of Micro-Cantilever for Bio-Sensing 2Design and Fabrication of ISFET 3Design and Development of Lab-on-Chip Microfluidics 4Design and Fabrication of Microsensors for Biomedical Food and Environmental ApplicationsbullDesign and Development of MEMS Inertial Sensors 1Design and Simulations of Rate MEMS Gyroscopes 2Design and Simulations of LIGA Technology based Interdigitated Comb Drive Accelerometer 3Fabrication of Accelerometer with DaCM using DRIEbullDesign and Development of Micro-Wave MEMS 1Design and Simulation for parameter extraction of RF Switches Phase Shifters Inductors Antenna Wave Guide RF couplers Filters Resonators Fabrication of Phase Shifter DevicesbullFabrication of MEMS Ultrasonic Transducer for Non-Destructive Testing
Springer Research Journals Electric Electronics and Communication EngineeringISSN NoInternational
Journal of Electrical Engineering [IJEE]0974-2158International Journal of Electronics and Communication Engineering [IJECE]0974-2166International Journal of Electronic and Electrical Engineering [IJEEE]0974-2174International Journal of Electronics Networks Devices and Field [IJENDF]0974-2182International Journal of Electrical and Computer Engineering [IJEC]0974-2190International Journal of Microcircuits and Electronic [IJME]0974-2204International Journal of Photonics [IJP]0974-2212International Journal of Industrial Electronics and Control [IJIEC]0974-2220Advances in Wireless and Mobile Communications [AWMC]0973-6972International Journal of Wireless Networks and Communications [IJWNC]0975-6507International Journal of Electronics Engineering Research [IJEER]0975-6450International Journal of Applied Engineering Research [IJAER]1087-1090International Journal of Wireless Communication and Simulation [IJWCS]2231-1254Advances in Electronic and Electric Engineering [AEEE]2231-1297Global Journal of Electronic and Communication Research [GJECR]2249-314XInternational Journal of Electronic and Communication Research [IJECR]2231-1246International Journal of Mobile Communication amp Networking [IJMCN]2231-1203Global Journal of Electronic and Communication Engg amp Technology [GJECET] International Journal of Communication Engineering and Technology [IJCET]2277-3150International Journal of Electronic Engineering and Technology [IJEET]2249-3085Journal of Nonlinear Analysis and Applications [JNAA]
CEL-Solar Photovoltaic Group The function of this business unit is to manufacture and market Solar
Voltaic Cells Modules and complete systems in India amp AbroadCentral Electronics Limited (CEL) is the pioneer and one of the largest manufacturers of Solar-Photovoltaic (SPV) Cells Modules and Systems in India Through own RampD efforts spread over a decade of continuous efforts the company has converted a laboratory concept into an industrial technologyCEL with its commitment to harness the solar energy has opened up new vistas in the field of solar photovoltaic
Backed by an integrated production facility to manufacture Mono-Crystalline Silicon Solar Cells and Modules with the state-of-the-art screen-printing technology the company has supplied more than 5 Lakhs SPV Systems in India and abroad covering both rural and industrial applications CEL is in process of enhancing its modules manufacturing capacity to 40 MWp and the production is expected to start by August 2014
CEL products conform to stringent National amp International Standards The PV modules are tested for IEC 6121561730by TUV Rheinland
Our modules have been successfully tested by Solar Energy Centre (SEC) of the Ministry of Non-conventional Energy Sources (MNES) Govt of India
CEL Solar Panel Applications
SOLAR PHOTOVOLTAIC MODULES PM10
CELrsquos Solar Photovoltaic Modules type PM10 are manufactured using Mono Crystalline Silicon Solar Cells These are high quality and
high performance modules suitable for power generation These modules have excellent durability to withstand extreme temperature
and weather conditions of the high altitudes deserts and coastal regions FEATURES 1048698 Uses mono crystalline silicon Solar Cells 1048698 Suitable for DC 12V24V systems or multiple there-of 1048698 Encapsulation of cells using UV stabilized polymer (EVA) and protective back
cover using Tedler-Polyester-Tedlar 1048698 High transmission toughened glass superstrate and anodized aluminum frame
for mounting 1048698 Long service Life APPLICATIONSSOLAR PV MODULE PM10SPECIFICATION Physical Parameters Environmental Rating Specification subject to change without prior notice due to continuous in-house
improvements 1 Lighting 6 Telecommunication 2 Television 7 Refrigeration 3 Water Pumping 8 Railway Signaling 4Rural Electrification 9 Remote Resort Power 5 Power Plants
DEAL(Defence Electronics Appn Lab)Dehradun DEAL is committed to provide the required
resources infrastructure and an effective amp efficient Quality Management System for timely completion of the design and development of the productswhich shall be conforming consistently to the stated amp implied needs of the user
DEAL is also committed to ascertain the continuous improvements through the periodic review of Quality Management System
Areas of WorkDEALDehradun
Areas of Work Data Links Software Radios Satellite Communication Microwave amp Millimeter Systems Image Processing amp Analysis
DEAL Dehradun(See Multidisciplinary Engg Disciplines)
Facilities Available Center for Advanced Mechanical
Engineering (CAME) MIC Computer Aided Design Product Assurance EMI EMC
DLRL Hyderabad VISION To Be a Center of excellence in
the field of Electronic Warfare MISSION Design and development
Evaluation and ToT leading to productionization and Induction of World Class Electronic Warfare Systems Establish Self Reliance in this Critical Technology
DLRLs core competence lies in Design amp Development of Electronic Warfare systems Technologies amp Components They are listed as under SYSTEMS
Design of Electronic Warfare Systems(COMINTELINTESMECM)
Development of hardware and software of sub systems System integration and evaluation on various platforms -
vehicles ships submarines helicopters aircrafts airborne pods
TECHNOLOGIES Multi octave band antennas and radomes Multi octave band MicrowaveMillimeter Wave components amp
super components Narrow bandwide band intercept receivers Broad band high accuracy Direction Finding receivers High power transmitters for ECM Multi beam jammer transmitters Frequency Memory Loops amp Digital Radio Frequency Memories
for jammers
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
CEERIPilani Achievements of Agri Electronics Group Completed Projects till December 2013 1) Remotely Monitored and Controlled High Capacity RO Plant for
desalination of Sea Water
Sponsored DST (WTI) Implementation CSMCRI amp CEERI
TechnicalScientific Achievements
The following tasks were successfully completed during the period at CSMCRI Bhavnagar by CEERI Pilani and CSMCRI team
Installation and testing of Embedded Controller along with PC wireless connectivity for the two stage sea water desalination RO plant at CSMCRI
The various operating modes of running the RO plant are tested for two stages successfully (process mode water wash mode chemical wash mode)
Remote control and monitoring of the plant is implemented using LabVIEW software
The plant is successfully controlled and tested remotely from Nov 2012 to Dec 2013
CEERI-Smart Pond Management System for Fresh Water Aquaculture
Sponsored DBT Implementation CSIR-CEERI ICAR-CIFA Bhubaneswar
This is combined project with CIFA Bhuvaneshwar funded by DBT Govt of India The developed Embedded Platform based systems monitor all critical parameters of the pond and predicts the stress factor on the fish prawn so that the farmer can take preventive action in advance Wireless protocol is developed for integrating different systems developed under this project Systems developed under this project are
Embedded Smart Motorized Boat for Water and Aquaculture (large Ponds)
Auto Feeder System (Small Ponds) Water Quality Systems
Electronics System Areas of ResearchbullAgri-ElectronicsbullEmbedded SystemsbullDigital SystemsbullPower Electronics
Electron Tubes Areas of ResearchbullGyrotronbullKlystronbullMagnetrons
Plasma DevicesbullTraveling Wave Tubes Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
CEERIPilani
Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
MEMS and Microsensors Group Current Activities Research AreasbullDesign Development of MEMS
Pressure Sensors 1Design Fabrication Packaging for Testing and Calibration 2Piezoresistive Piezoelectric Pressure Sensors 3Bulk and Surface Micromachined Capacitive Pressure Sensors 4Piezoresistive Load Cells 5DRIE based MEMS Absolute Pressure SensorbullDesign and Development of MEMS Ultrasonic Transducers 1Development of Process Technolgy and Device Fabrication 2Packaging Testing and Characterization 3Development of Wafer-Bonding Technology for Membrane FormationbullDesign and Development of Bio-Sensors 1Design and Fabrication of Micro-Cantilever for Bio-Sensing 2Design and Fabrication of ISFET 3Design and Development of Lab-on-Chip Microfluidics 4Design and Fabrication of Microsensors for Biomedical Food and Environmental ApplicationsbullDesign and Development of MEMS Inertial Sensors 1Design and Simulations of Rate MEMS Gyroscopes 2Design and Simulations of LIGA Technology based Interdigitated Comb Drive Accelerometer 3Fabrication of Accelerometer with DaCM using DRIEbullDesign and Development of Micro-Wave MEMS 1Design and Simulation for parameter extraction of RF Switches Phase Shifters Inductors Antenna Wave Guide RF couplers Filters Resonators Fabrication of Phase Shifter DevicesbullFabrication of MEMS Ultrasonic Transducer for Non-Destructive Testing
Springer Research Journals Electric Electronics and Communication EngineeringISSN NoInternational
Journal of Electrical Engineering [IJEE]0974-2158International Journal of Electronics and Communication Engineering [IJECE]0974-2166International Journal of Electronic and Electrical Engineering [IJEEE]0974-2174International Journal of Electronics Networks Devices and Field [IJENDF]0974-2182International Journal of Electrical and Computer Engineering [IJEC]0974-2190International Journal of Microcircuits and Electronic [IJME]0974-2204International Journal of Photonics [IJP]0974-2212International Journal of Industrial Electronics and Control [IJIEC]0974-2220Advances in Wireless and Mobile Communications [AWMC]0973-6972International Journal of Wireless Networks and Communications [IJWNC]0975-6507International Journal of Electronics Engineering Research [IJEER]0975-6450International Journal of Applied Engineering Research [IJAER]1087-1090International Journal of Wireless Communication and Simulation [IJWCS]2231-1254Advances in Electronic and Electric Engineering [AEEE]2231-1297Global Journal of Electronic and Communication Research [GJECR]2249-314XInternational Journal of Electronic and Communication Research [IJECR]2231-1246International Journal of Mobile Communication amp Networking [IJMCN]2231-1203Global Journal of Electronic and Communication Engg amp Technology [GJECET] International Journal of Communication Engineering and Technology [IJCET]2277-3150International Journal of Electronic Engineering and Technology [IJEET]2249-3085Journal of Nonlinear Analysis and Applications [JNAA]
CEL-Solar Photovoltaic Group The function of this business unit is to manufacture and market Solar
Voltaic Cells Modules and complete systems in India amp AbroadCentral Electronics Limited (CEL) is the pioneer and one of the largest manufacturers of Solar-Photovoltaic (SPV) Cells Modules and Systems in India Through own RampD efforts spread over a decade of continuous efforts the company has converted a laboratory concept into an industrial technologyCEL with its commitment to harness the solar energy has opened up new vistas in the field of solar photovoltaic
Backed by an integrated production facility to manufacture Mono-Crystalline Silicon Solar Cells and Modules with the state-of-the-art screen-printing technology the company has supplied more than 5 Lakhs SPV Systems in India and abroad covering both rural and industrial applications CEL is in process of enhancing its modules manufacturing capacity to 40 MWp and the production is expected to start by August 2014
CEL products conform to stringent National amp International Standards The PV modules are tested for IEC 6121561730by TUV Rheinland
Our modules have been successfully tested by Solar Energy Centre (SEC) of the Ministry of Non-conventional Energy Sources (MNES) Govt of India
CEL Solar Panel Applications
SOLAR PHOTOVOLTAIC MODULES PM10
CELrsquos Solar Photovoltaic Modules type PM10 are manufactured using Mono Crystalline Silicon Solar Cells These are high quality and
high performance modules suitable for power generation These modules have excellent durability to withstand extreme temperature
and weather conditions of the high altitudes deserts and coastal regions FEATURES 1048698 Uses mono crystalline silicon Solar Cells 1048698 Suitable for DC 12V24V systems or multiple there-of 1048698 Encapsulation of cells using UV stabilized polymer (EVA) and protective back
cover using Tedler-Polyester-Tedlar 1048698 High transmission toughened glass superstrate and anodized aluminum frame
for mounting 1048698 Long service Life APPLICATIONSSOLAR PV MODULE PM10SPECIFICATION Physical Parameters Environmental Rating Specification subject to change without prior notice due to continuous in-house
improvements 1 Lighting 6 Telecommunication 2 Television 7 Refrigeration 3 Water Pumping 8 Railway Signaling 4Rural Electrification 9 Remote Resort Power 5 Power Plants
DEAL(Defence Electronics Appn Lab)Dehradun DEAL is committed to provide the required
resources infrastructure and an effective amp efficient Quality Management System for timely completion of the design and development of the productswhich shall be conforming consistently to the stated amp implied needs of the user
DEAL is also committed to ascertain the continuous improvements through the periodic review of Quality Management System
Areas of WorkDEALDehradun
Areas of Work Data Links Software Radios Satellite Communication Microwave amp Millimeter Systems Image Processing amp Analysis
DEAL Dehradun(See Multidisciplinary Engg Disciplines)
Facilities Available Center for Advanced Mechanical
Engineering (CAME) MIC Computer Aided Design Product Assurance EMI EMC
DLRL Hyderabad VISION To Be a Center of excellence in
the field of Electronic Warfare MISSION Design and development
Evaluation and ToT leading to productionization and Induction of World Class Electronic Warfare Systems Establish Self Reliance in this Critical Technology
DLRLs core competence lies in Design amp Development of Electronic Warfare systems Technologies amp Components They are listed as under SYSTEMS
Design of Electronic Warfare Systems(COMINTELINTESMECM)
Development of hardware and software of sub systems System integration and evaluation on various platforms -
vehicles ships submarines helicopters aircrafts airborne pods
TECHNOLOGIES Multi octave band antennas and radomes Multi octave band MicrowaveMillimeter Wave components amp
super components Narrow bandwide band intercept receivers Broad band high accuracy Direction Finding receivers High power transmitters for ECM Multi beam jammer transmitters Frequency Memory Loops amp Digital Radio Frequency Memories
for jammers
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
CEERI-Smart Pond Management System for Fresh Water Aquaculture
Sponsored DBT Implementation CSIR-CEERI ICAR-CIFA Bhubaneswar
This is combined project with CIFA Bhuvaneshwar funded by DBT Govt of India The developed Embedded Platform based systems monitor all critical parameters of the pond and predicts the stress factor on the fish prawn so that the farmer can take preventive action in advance Wireless protocol is developed for integrating different systems developed under this project Systems developed under this project are
Embedded Smart Motorized Boat for Water and Aquaculture (large Ponds)
Auto Feeder System (Small Ponds) Water Quality Systems
Electronics System Areas of ResearchbullAgri-ElectronicsbullEmbedded SystemsbullDigital SystemsbullPower Electronics
Electron Tubes Areas of ResearchbullGyrotronbullKlystronbullMagnetrons
Plasma DevicesbullTraveling Wave Tubes Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
CEERIPilani
Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
MEMS and Microsensors Group Current Activities Research AreasbullDesign Development of MEMS
Pressure Sensors 1Design Fabrication Packaging for Testing and Calibration 2Piezoresistive Piezoelectric Pressure Sensors 3Bulk and Surface Micromachined Capacitive Pressure Sensors 4Piezoresistive Load Cells 5DRIE based MEMS Absolute Pressure SensorbullDesign and Development of MEMS Ultrasonic Transducers 1Development of Process Technolgy and Device Fabrication 2Packaging Testing and Characterization 3Development of Wafer-Bonding Technology for Membrane FormationbullDesign and Development of Bio-Sensors 1Design and Fabrication of Micro-Cantilever for Bio-Sensing 2Design and Fabrication of ISFET 3Design and Development of Lab-on-Chip Microfluidics 4Design and Fabrication of Microsensors for Biomedical Food and Environmental ApplicationsbullDesign and Development of MEMS Inertial Sensors 1Design and Simulations of Rate MEMS Gyroscopes 2Design and Simulations of LIGA Technology based Interdigitated Comb Drive Accelerometer 3Fabrication of Accelerometer with DaCM using DRIEbullDesign and Development of Micro-Wave MEMS 1Design and Simulation for parameter extraction of RF Switches Phase Shifters Inductors Antenna Wave Guide RF couplers Filters Resonators Fabrication of Phase Shifter DevicesbullFabrication of MEMS Ultrasonic Transducer for Non-Destructive Testing
Springer Research Journals Electric Electronics and Communication EngineeringISSN NoInternational
Journal of Electrical Engineering [IJEE]0974-2158International Journal of Electronics and Communication Engineering [IJECE]0974-2166International Journal of Electronic and Electrical Engineering [IJEEE]0974-2174International Journal of Electronics Networks Devices and Field [IJENDF]0974-2182International Journal of Electrical and Computer Engineering [IJEC]0974-2190International Journal of Microcircuits and Electronic [IJME]0974-2204International Journal of Photonics [IJP]0974-2212International Journal of Industrial Electronics and Control [IJIEC]0974-2220Advances in Wireless and Mobile Communications [AWMC]0973-6972International Journal of Wireless Networks and Communications [IJWNC]0975-6507International Journal of Electronics Engineering Research [IJEER]0975-6450International Journal of Applied Engineering Research [IJAER]1087-1090International Journal of Wireless Communication and Simulation [IJWCS]2231-1254Advances in Electronic and Electric Engineering [AEEE]2231-1297Global Journal of Electronic and Communication Research [GJECR]2249-314XInternational Journal of Electronic and Communication Research [IJECR]2231-1246International Journal of Mobile Communication amp Networking [IJMCN]2231-1203Global Journal of Electronic and Communication Engg amp Technology [GJECET] International Journal of Communication Engineering and Technology [IJCET]2277-3150International Journal of Electronic Engineering and Technology [IJEET]2249-3085Journal of Nonlinear Analysis and Applications [JNAA]
CEL-Solar Photovoltaic Group The function of this business unit is to manufacture and market Solar
Voltaic Cells Modules and complete systems in India amp AbroadCentral Electronics Limited (CEL) is the pioneer and one of the largest manufacturers of Solar-Photovoltaic (SPV) Cells Modules and Systems in India Through own RampD efforts spread over a decade of continuous efforts the company has converted a laboratory concept into an industrial technologyCEL with its commitment to harness the solar energy has opened up new vistas in the field of solar photovoltaic
Backed by an integrated production facility to manufacture Mono-Crystalline Silicon Solar Cells and Modules with the state-of-the-art screen-printing technology the company has supplied more than 5 Lakhs SPV Systems in India and abroad covering both rural and industrial applications CEL is in process of enhancing its modules manufacturing capacity to 40 MWp and the production is expected to start by August 2014
CEL products conform to stringent National amp International Standards The PV modules are tested for IEC 6121561730by TUV Rheinland
Our modules have been successfully tested by Solar Energy Centre (SEC) of the Ministry of Non-conventional Energy Sources (MNES) Govt of India
CEL Solar Panel Applications
SOLAR PHOTOVOLTAIC MODULES PM10
CELrsquos Solar Photovoltaic Modules type PM10 are manufactured using Mono Crystalline Silicon Solar Cells These are high quality and
high performance modules suitable for power generation These modules have excellent durability to withstand extreme temperature
and weather conditions of the high altitudes deserts and coastal regions FEATURES 1048698 Uses mono crystalline silicon Solar Cells 1048698 Suitable for DC 12V24V systems or multiple there-of 1048698 Encapsulation of cells using UV stabilized polymer (EVA) and protective back
cover using Tedler-Polyester-Tedlar 1048698 High transmission toughened glass superstrate and anodized aluminum frame
for mounting 1048698 Long service Life APPLICATIONSSOLAR PV MODULE PM10SPECIFICATION Physical Parameters Environmental Rating Specification subject to change without prior notice due to continuous in-house
improvements 1 Lighting 6 Telecommunication 2 Television 7 Refrigeration 3 Water Pumping 8 Railway Signaling 4Rural Electrification 9 Remote Resort Power 5 Power Plants
DEAL(Defence Electronics Appn Lab)Dehradun DEAL is committed to provide the required
resources infrastructure and an effective amp efficient Quality Management System for timely completion of the design and development of the productswhich shall be conforming consistently to the stated amp implied needs of the user
DEAL is also committed to ascertain the continuous improvements through the periodic review of Quality Management System
Areas of WorkDEALDehradun
Areas of Work Data Links Software Radios Satellite Communication Microwave amp Millimeter Systems Image Processing amp Analysis
DEAL Dehradun(See Multidisciplinary Engg Disciplines)
Facilities Available Center for Advanced Mechanical
Engineering (CAME) MIC Computer Aided Design Product Assurance EMI EMC
DLRL Hyderabad VISION To Be a Center of excellence in
the field of Electronic Warfare MISSION Design and development
Evaluation and ToT leading to productionization and Induction of World Class Electronic Warfare Systems Establish Self Reliance in this Critical Technology
DLRLs core competence lies in Design amp Development of Electronic Warfare systems Technologies amp Components They are listed as under SYSTEMS
Design of Electronic Warfare Systems(COMINTELINTESMECM)
Development of hardware and software of sub systems System integration and evaluation on various platforms -
vehicles ships submarines helicopters aircrafts airborne pods
TECHNOLOGIES Multi octave band antennas and radomes Multi octave band MicrowaveMillimeter Wave components amp
super components Narrow bandwide band intercept receivers Broad band high accuracy Direction Finding receivers High power transmitters for ECM Multi beam jammer transmitters Frequency Memory Loops amp Digital Radio Frequency Memories
for jammers
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Electronics System Areas of ResearchbullAgri-ElectronicsbullEmbedded SystemsbullDigital SystemsbullPower Electronics
Electron Tubes Areas of ResearchbullGyrotronbullKlystronbullMagnetrons
Plasma DevicesbullTraveling Wave Tubes Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
CEERIPilani
Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
MEMS and Microsensors Group Current Activities Research AreasbullDesign Development of MEMS
Pressure Sensors 1Design Fabrication Packaging for Testing and Calibration 2Piezoresistive Piezoelectric Pressure Sensors 3Bulk and Surface Micromachined Capacitive Pressure Sensors 4Piezoresistive Load Cells 5DRIE based MEMS Absolute Pressure SensorbullDesign and Development of MEMS Ultrasonic Transducers 1Development of Process Technolgy and Device Fabrication 2Packaging Testing and Characterization 3Development of Wafer-Bonding Technology for Membrane FormationbullDesign and Development of Bio-Sensors 1Design and Fabrication of Micro-Cantilever for Bio-Sensing 2Design and Fabrication of ISFET 3Design and Development of Lab-on-Chip Microfluidics 4Design and Fabrication of Microsensors for Biomedical Food and Environmental ApplicationsbullDesign and Development of MEMS Inertial Sensors 1Design and Simulations of Rate MEMS Gyroscopes 2Design and Simulations of LIGA Technology based Interdigitated Comb Drive Accelerometer 3Fabrication of Accelerometer with DaCM using DRIEbullDesign and Development of Micro-Wave MEMS 1Design and Simulation for parameter extraction of RF Switches Phase Shifters Inductors Antenna Wave Guide RF couplers Filters Resonators Fabrication of Phase Shifter DevicesbullFabrication of MEMS Ultrasonic Transducer for Non-Destructive Testing
Springer Research Journals Electric Electronics and Communication EngineeringISSN NoInternational
Journal of Electrical Engineering [IJEE]0974-2158International Journal of Electronics and Communication Engineering [IJECE]0974-2166International Journal of Electronic and Electrical Engineering [IJEEE]0974-2174International Journal of Electronics Networks Devices and Field [IJENDF]0974-2182International Journal of Electrical and Computer Engineering [IJEC]0974-2190International Journal of Microcircuits and Electronic [IJME]0974-2204International Journal of Photonics [IJP]0974-2212International Journal of Industrial Electronics and Control [IJIEC]0974-2220Advances in Wireless and Mobile Communications [AWMC]0973-6972International Journal of Wireless Networks and Communications [IJWNC]0975-6507International Journal of Electronics Engineering Research [IJEER]0975-6450International Journal of Applied Engineering Research [IJAER]1087-1090International Journal of Wireless Communication and Simulation [IJWCS]2231-1254Advances in Electronic and Electric Engineering [AEEE]2231-1297Global Journal of Electronic and Communication Research [GJECR]2249-314XInternational Journal of Electronic and Communication Research [IJECR]2231-1246International Journal of Mobile Communication amp Networking [IJMCN]2231-1203Global Journal of Electronic and Communication Engg amp Technology [GJECET] International Journal of Communication Engineering and Technology [IJCET]2277-3150International Journal of Electronic Engineering and Technology [IJEET]2249-3085Journal of Nonlinear Analysis and Applications [JNAA]
CEL-Solar Photovoltaic Group The function of this business unit is to manufacture and market Solar
Voltaic Cells Modules and complete systems in India amp AbroadCentral Electronics Limited (CEL) is the pioneer and one of the largest manufacturers of Solar-Photovoltaic (SPV) Cells Modules and Systems in India Through own RampD efforts spread over a decade of continuous efforts the company has converted a laboratory concept into an industrial technologyCEL with its commitment to harness the solar energy has opened up new vistas in the field of solar photovoltaic
Backed by an integrated production facility to manufacture Mono-Crystalline Silicon Solar Cells and Modules with the state-of-the-art screen-printing technology the company has supplied more than 5 Lakhs SPV Systems in India and abroad covering both rural and industrial applications CEL is in process of enhancing its modules manufacturing capacity to 40 MWp and the production is expected to start by August 2014
CEL products conform to stringent National amp International Standards The PV modules are tested for IEC 6121561730by TUV Rheinland
Our modules have been successfully tested by Solar Energy Centre (SEC) of the Ministry of Non-conventional Energy Sources (MNES) Govt of India
CEL Solar Panel Applications
SOLAR PHOTOVOLTAIC MODULES PM10
CELrsquos Solar Photovoltaic Modules type PM10 are manufactured using Mono Crystalline Silicon Solar Cells These are high quality and
high performance modules suitable for power generation These modules have excellent durability to withstand extreme temperature
and weather conditions of the high altitudes deserts and coastal regions FEATURES 1048698 Uses mono crystalline silicon Solar Cells 1048698 Suitable for DC 12V24V systems or multiple there-of 1048698 Encapsulation of cells using UV stabilized polymer (EVA) and protective back
cover using Tedler-Polyester-Tedlar 1048698 High transmission toughened glass superstrate and anodized aluminum frame
for mounting 1048698 Long service Life APPLICATIONSSOLAR PV MODULE PM10SPECIFICATION Physical Parameters Environmental Rating Specification subject to change without prior notice due to continuous in-house
improvements 1 Lighting 6 Telecommunication 2 Television 7 Refrigeration 3 Water Pumping 8 Railway Signaling 4Rural Electrification 9 Remote Resort Power 5 Power Plants
DEAL(Defence Electronics Appn Lab)Dehradun DEAL is committed to provide the required
resources infrastructure and an effective amp efficient Quality Management System for timely completion of the design and development of the productswhich shall be conforming consistently to the stated amp implied needs of the user
DEAL is also committed to ascertain the continuous improvements through the periodic review of Quality Management System
Areas of WorkDEALDehradun
Areas of Work Data Links Software Radios Satellite Communication Microwave amp Millimeter Systems Image Processing amp Analysis
DEAL Dehradun(See Multidisciplinary Engg Disciplines)
Facilities Available Center for Advanced Mechanical
Engineering (CAME) MIC Computer Aided Design Product Assurance EMI EMC
DLRL Hyderabad VISION To Be a Center of excellence in
the field of Electronic Warfare MISSION Design and development
Evaluation and ToT leading to productionization and Induction of World Class Electronic Warfare Systems Establish Self Reliance in this Critical Technology
DLRLs core competence lies in Design amp Development of Electronic Warfare systems Technologies amp Components They are listed as under SYSTEMS
Design of Electronic Warfare Systems(COMINTELINTESMECM)
Development of hardware and software of sub systems System integration and evaluation on various platforms -
vehicles ships submarines helicopters aircrafts airborne pods
TECHNOLOGIES Multi octave band antennas and radomes Multi octave band MicrowaveMillimeter Wave components amp
super components Narrow bandwide band intercept receivers Broad band high accuracy Direction Finding receivers High power transmitters for ECM Multi beam jammer transmitters Frequency Memory Loops amp Digital Radio Frequency Memories
for jammers
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
CEERIPilani
Semiconductor Areas of ResearchbullHybrid MircrocircuitsbullIC DesignbullMEMS and MicrosensorsbullSensors and NanotechnologybullPhotonics and OptoelectronicsbullSemiconductor Materials and Technology
MEMS and Microsensors Group Current Activities Research AreasbullDesign Development of MEMS
Pressure Sensors 1Design Fabrication Packaging for Testing and Calibration 2Piezoresistive Piezoelectric Pressure Sensors 3Bulk and Surface Micromachined Capacitive Pressure Sensors 4Piezoresistive Load Cells 5DRIE based MEMS Absolute Pressure SensorbullDesign and Development of MEMS Ultrasonic Transducers 1Development of Process Technolgy and Device Fabrication 2Packaging Testing and Characterization 3Development of Wafer-Bonding Technology for Membrane FormationbullDesign and Development of Bio-Sensors 1Design and Fabrication of Micro-Cantilever for Bio-Sensing 2Design and Fabrication of ISFET 3Design and Development of Lab-on-Chip Microfluidics 4Design and Fabrication of Microsensors for Biomedical Food and Environmental ApplicationsbullDesign and Development of MEMS Inertial Sensors 1Design and Simulations of Rate MEMS Gyroscopes 2Design and Simulations of LIGA Technology based Interdigitated Comb Drive Accelerometer 3Fabrication of Accelerometer with DaCM using DRIEbullDesign and Development of Micro-Wave MEMS 1Design and Simulation for parameter extraction of RF Switches Phase Shifters Inductors Antenna Wave Guide RF couplers Filters Resonators Fabrication of Phase Shifter DevicesbullFabrication of MEMS Ultrasonic Transducer for Non-Destructive Testing
Springer Research Journals Electric Electronics and Communication EngineeringISSN NoInternational
Journal of Electrical Engineering [IJEE]0974-2158International Journal of Electronics and Communication Engineering [IJECE]0974-2166International Journal of Electronic and Electrical Engineering [IJEEE]0974-2174International Journal of Electronics Networks Devices and Field [IJENDF]0974-2182International Journal of Electrical and Computer Engineering [IJEC]0974-2190International Journal of Microcircuits and Electronic [IJME]0974-2204International Journal of Photonics [IJP]0974-2212International Journal of Industrial Electronics and Control [IJIEC]0974-2220Advances in Wireless and Mobile Communications [AWMC]0973-6972International Journal of Wireless Networks and Communications [IJWNC]0975-6507International Journal of Electronics Engineering Research [IJEER]0975-6450International Journal of Applied Engineering Research [IJAER]1087-1090International Journal of Wireless Communication and Simulation [IJWCS]2231-1254Advances in Electronic and Electric Engineering [AEEE]2231-1297Global Journal of Electronic and Communication Research [GJECR]2249-314XInternational Journal of Electronic and Communication Research [IJECR]2231-1246International Journal of Mobile Communication amp Networking [IJMCN]2231-1203Global Journal of Electronic and Communication Engg amp Technology [GJECET] International Journal of Communication Engineering and Technology [IJCET]2277-3150International Journal of Electronic Engineering and Technology [IJEET]2249-3085Journal of Nonlinear Analysis and Applications [JNAA]
CEL-Solar Photovoltaic Group The function of this business unit is to manufacture and market Solar
Voltaic Cells Modules and complete systems in India amp AbroadCentral Electronics Limited (CEL) is the pioneer and one of the largest manufacturers of Solar-Photovoltaic (SPV) Cells Modules and Systems in India Through own RampD efforts spread over a decade of continuous efforts the company has converted a laboratory concept into an industrial technologyCEL with its commitment to harness the solar energy has opened up new vistas in the field of solar photovoltaic
Backed by an integrated production facility to manufacture Mono-Crystalline Silicon Solar Cells and Modules with the state-of-the-art screen-printing technology the company has supplied more than 5 Lakhs SPV Systems in India and abroad covering both rural and industrial applications CEL is in process of enhancing its modules manufacturing capacity to 40 MWp and the production is expected to start by August 2014
CEL products conform to stringent National amp International Standards The PV modules are tested for IEC 6121561730by TUV Rheinland
Our modules have been successfully tested by Solar Energy Centre (SEC) of the Ministry of Non-conventional Energy Sources (MNES) Govt of India
CEL Solar Panel Applications
SOLAR PHOTOVOLTAIC MODULES PM10
CELrsquos Solar Photovoltaic Modules type PM10 are manufactured using Mono Crystalline Silicon Solar Cells These are high quality and
high performance modules suitable for power generation These modules have excellent durability to withstand extreme temperature
and weather conditions of the high altitudes deserts and coastal regions FEATURES 1048698 Uses mono crystalline silicon Solar Cells 1048698 Suitable for DC 12V24V systems or multiple there-of 1048698 Encapsulation of cells using UV stabilized polymer (EVA) and protective back
cover using Tedler-Polyester-Tedlar 1048698 High transmission toughened glass superstrate and anodized aluminum frame
for mounting 1048698 Long service Life APPLICATIONSSOLAR PV MODULE PM10SPECIFICATION Physical Parameters Environmental Rating Specification subject to change without prior notice due to continuous in-house
improvements 1 Lighting 6 Telecommunication 2 Television 7 Refrigeration 3 Water Pumping 8 Railway Signaling 4Rural Electrification 9 Remote Resort Power 5 Power Plants
DEAL(Defence Electronics Appn Lab)Dehradun DEAL is committed to provide the required
resources infrastructure and an effective amp efficient Quality Management System for timely completion of the design and development of the productswhich shall be conforming consistently to the stated amp implied needs of the user
DEAL is also committed to ascertain the continuous improvements through the periodic review of Quality Management System
Areas of WorkDEALDehradun
Areas of Work Data Links Software Radios Satellite Communication Microwave amp Millimeter Systems Image Processing amp Analysis
DEAL Dehradun(See Multidisciplinary Engg Disciplines)
Facilities Available Center for Advanced Mechanical
Engineering (CAME) MIC Computer Aided Design Product Assurance EMI EMC
DLRL Hyderabad VISION To Be a Center of excellence in
the field of Electronic Warfare MISSION Design and development
Evaluation and ToT leading to productionization and Induction of World Class Electronic Warfare Systems Establish Self Reliance in this Critical Technology
DLRLs core competence lies in Design amp Development of Electronic Warfare systems Technologies amp Components They are listed as under SYSTEMS
Design of Electronic Warfare Systems(COMINTELINTESMECM)
Development of hardware and software of sub systems System integration and evaluation on various platforms -
vehicles ships submarines helicopters aircrafts airborne pods
TECHNOLOGIES Multi octave band antennas and radomes Multi octave band MicrowaveMillimeter Wave components amp
super components Narrow bandwide band intercept receivers Broad band high accuracy Direction Finding receivers High power transmitters for ECM Multi beam jammer transmitters Frequency Memory Loops amp Digital Radio Frequency Memories
for jammers
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
MEMS and Microsensors Group Current Activities Research AreasbullDesign Development of MEMS
Pressure Sensors 1Design Fabrication Packaging for Testing and Calibration 2Piezoresistive Piezoelectric Pressure Sensors 3Bulk and Surface Micromachined Capacitive Pressure Sensors 4Piezoresistive Load Cells 5DRIE based MEMS Absolute Pressure SensorbullDesign and Development of MEMS Ultrasonic Transducers 1Development of Process Technolgy and Device Fabrication 2Packaging Testing and Characterization 3Development of Wafer-Bonding Technology for Membrane FormationbullDesign and Development of Bio-Sensors 1Design and Fabrication of Micro-Cantilever for Bio-Sensing 2Design and Fabrication of ISFET 3Design and Development of Lab-on-Chip Microfluidics 4Design and Fabrication of Microsensors for Biomedical Food and Environmental ApplicationsbullDesign and Development of MEMS Inertial Sensors 1Design and Simulations of Rate MEMS Gyroscopes 2Design and Simulations of LIGA Technology based Interdigitated Comb Drive Accelerometer 3Fabrication of Accelerometer with DaCM using DRIEbullDesign and Development of Micro-Wave MEMS 1Design and Simulation for parameter extraction of RF Switches Phase Shifters Inductors Antenna Wave Guide RF couplers Filters Resonators Fabrication of Phase Shifter DevicesbullFabrication of MEMS Ultrasonic Transducer for Non-Destructive Testing
Springer Research Journals Electric Electronics and Communication EngineeringISSN NoInternational
Journal of Electrical Engineering [IJEE]0974-2158International Journal of Electronics and Communication Engineering [IJECE]0974-2166International Journal of Electronic and Electrical Engineering [IJEEE]0974-2174International Journal of Electronics Networks Devices and Field [IJENDF]0974-2182International Journal of Electrical and Computer Engineering [IJEC]0974-2190International Journal of Microcircuits and Electronic [IJME]0974-2204International Journal of Photonics [IJP]0974-2212International Journal of Industrial Electronics and Control [IJIEC]0974-2220Advances in Wireless and Mobile Communications [AWMC]0973-6972International Journal of Wireless Networks and Communications [IJWNC]0975-6507International Journal of Electronics Engineering Research [IJEER]0975-6450International Journal of Applied Engineering Research [IJAER]1087-1090International Journal of Wireless Communication and Simulation [IJWCS]2231-1254Advances in Electronic and Electric Engineering [AEEE]2231-1297Global Journal of Electronic and Communication Research [GJECR]2249-314XInternational Journal of Electronic and Communication Research [IJECR]2231-1246International Journal of Mobile Communication amp Networking [IJMCN]2231-1203Global Journal of Electronic and Communication Engg amp Technology [GJECET] International Journal of Communication Engineering and Technology [IJCET]2277-3150International Journal of Electronic Engineering and Technology [IJEET]2249-3085Journal of Nonlinear Analysis and Applications [JNAA]
CEL-Solar Photovoltaic Group The function of this business unit is to manufacture and market Solar
Voltaic Cells Modules and complete systems in India amp AbroadCentral Electronics Limited (CEL) is the pioneer and one of the largest manufacturers of Solar-Photovoltaic (SPV) Cells Modules and Systems in India Through own RampD efforts spread over a decade of continuous efforts the company has converted a laboratory concept into an industrial technologyCEL with its commitment to harness the solar energy has opened up new vistas in the field of solar photovoltaic
Backed by an integrated production facility to manufacture Mono-Crystalline Silicon Solar Cells and Modules with the state-of-the-art screen-printing technology the company has supplied more than 5 Lakhs SPV Systems in India and abroad covering both rural and industrial applications CEL is in process of enhancing its modules manufacturing capacity to 40 MWp and the production is expected to start by August 2014
CEL products conform to stringent National amp International Standards The PV modules are tested for IEC 6121561730by TUV Rheinland
Our modules have been successfully tested by Solar Energy Centre (SEC) of the Ministry of Non-conventional Energy Sources (MNES) Govt of India
CEL Solar Panel Applications
SOLAR PHOTOVOLTAIC MODULES PM10
CELrsquos Solar Photovoltaic Modules type PM10 are manufactured using Mono Crystalline Silicon Solar Cells These are high quality and
high performance modules suitable for power generation These modules have excellent durability to withstand extreme temperature
and weather conditions of the high altitudes deserts and coastal regions FEATURES 1048698 Uses mono crystalline silicon Solar Cells 1048698 Suitable for DC 12V24V systems or multiple there-of 1048698 Encapsulation of cells using UV stabilized polymer (EVA) and protective back
cover using Tedler-Polyester-Tedlar 1048698 High transmission toughened glass superstrate and anodized aluminum frame
for mounting 1048698 Long service Life APPLICATIONSSOLAR PV MODULE PM10SPECIFICATION Physical Parameters Environmental Rating Specification subject to change without prior notice due to continuous in-house
improvements 1 Lighting 6 Telecommunication 2 Television 7 Refrigeration 3 Water Pumping 8 Railway Signaling 4Rural Electrification 9 Remote Resort Power 5 Power Plants
DEAL(Defence Electronics Appn Lab)Dehradun DEAL is committed to provide the required
resources infrastructure and an effective amp efficient Quality Management System for timely completion of the design and development of the productswhich shall be conforming consistently to the stated amp implied needs of the user
DEAL is also committed to ascertain the continuous improvements through the periodic review of Quality Management System
Areas of WorkDEALDehradun
Areas of Work Data Links Software Radios Satellite Communication Microwave amp Millimeter Systems Image Processing amp Analysis
DEAL Dehradun(See Multidisciplinary Engg Disciplines)
Facilities Available Center for Advanced Mechanical
Engineering (CAME) MIC Computer Aided Design Product Assurance EMI EMC
DLRL Hyderabad VISION To Be a Center of excellence in
the field of Electronic Warfare MISSION Design and development
Evaluation and ToT leading to productionization and Induction of World Class Electronic Warfare Systems Establish Self Reliance in this Critical Technology
DLRLs core competence lies in Design amp Development of Electronic Warfare systems Technologies amp Components They are listed as under SYSTEMS
Design of Electronic Warfare Systems(COMINTELINTESMECM)
Development of hardware and software of sub systems System integration and evaluation on various platforms -
vehicles ships submarines helicopters aircrafts airborne pods
TECHNOLOGIES Multi octave band antennas and radomes Multi octave band MicrowaveMillimeter Wave components amp
super components Narrow bandwide band intercept receivers Broad band high accuracy Direction Finding receivers High power transmitters for ECM Multi beam jammer transmitters Frequency Memory Loops amp Digital Radio Frequency Memories
for jammers
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Springer Research Journals Electric Electronics and Communication EngineeringISSN NoInternational
Journal of Electrical Engineering [IJEE]0974-2158International Journal of Electronics and Communication Engineering [IJECE]0974-2166International Journal of Electronic and Electrical Engineering [IJEEE]0974-2174International Journal of Electronics Networks Devices and Field [IJENDF]0974-2182International Journal of Electrical and Computer Engineering [IJEC]0974-2190International Journal of Microcircuits and Electronic [IJME]0974-2204International Journal of Photonics [IJP]0974-2212International Journal of Industrial Electronics and Control [IJIEC]0974-2220Advances in Wireless and Mobile Communications [AWMC]0973-6972International Journal of Wireless Networks and Communications [IJWNC]0975-6507International Journal of Electronics Engineering Research [IJEER]0975-6450International Journal of Applied Engineering Research [IJAER]1087-1090International Journal of Wireless Communication and Simulation [IJWCS]2231-1254Advances in Electronic and Electric Engineering [AEEE]2231-1297Global Journal of Electronic and Communication Research [GJECR]2249-314XInternational Journal of Electronic and Communication Research [IJECR]2231-1246International Journal of Mobile Communication amp Networking [IJMCN]2231-1203Global Journal of Electronic and Communication Engg amp Technology [GJECET] International Journal of Communication Engineering and Technology [IJCET]2277-3150International Journal of Electronic Engineering and Technology [IJEET]2249-3085Journal of Nonlinear Analysis and Applications [JNAA]
CEL-Solar Photovoltaic Group The function of this business unit is to manufacture and market Solar
Voltaic Cells Modules and complete systems in India amp AbroadCentral Electronics Limited (CEL) is the pioneer and one of the largest manufacturers of Solar-Photovoltaic (SPV) Cells Modules and Systems in India Through own RampD efforts spread over a decade of continuous efforts the company has converted a laboratory concept into an industrial technologyCEL with its commitment to harness the solar energy has opened up new vistas in the field of solar photovoltaic
Backed by an integrated production facility to manufacture Mono-Crystalline Silicon Solar Cells and Modules with the state-of-the-art screen-printing technology the company has supplied more than 5 Lakhs SPV Systems in India and abroad covering both rural and industrial applications CEL is in process of enhancing its modules manufacturing capacity to 40 MWp and the production is expected to start by August 2014
CEL products conform to stringent National amp International Standards The PV modules are tested for IEC 6121561730by TUV Rheinland
Our modules have been successfully tested by Solar Energy Centre (SEC) of the Ministry of Non-conventional Energy Sources (MNES) Govt of India
CEL Solar Panel Applications
SOLAR PHOTOVOLTAIC MODULES PM10
CELrsquos Solar Photovoltaic Modules type PM10 are manufactured using Mono Crystalline Silicon Solar Cells These are high quality and
high performance modules suitable for power generation These modules have excellent durability to withstand extreme temperature
and weather conditions of the high altitudes deserts and coastal regions FEATURES 1048698 Uses mono crystalline silicon Solar Cells 1048698 Suitable for DC 12V24V systems or multiple there-of 1048698 Encapsulation of cells using UV stabilized polymer (EVA) and protective back
cover using Tedler-Polyester-Tedlar 1048698 High transmission toughened glass superstrate and anodized aluminum frame
for mounting 1048698 Long service Life APPLICATIONSSOLAR PV MODULE PM10SPECIFICATION Physical Parameters Environmental Rating Specification subject to change without prior notice due to continuous in-house
improvements 1 Lighting 6 Telecommunication 2 Television 7 Refrigeration 3 Water Pumping 8 Railway Signaling 4Rural Electrification 9 Remote Resort Power 5 Power Plants
DEAL(Defence Electronics Appn Lab)Dehradun DEAL is committed to provide the required
resources infrastructure and an effective amp efficient Quality Management System for timely completion of the design and development of the productswhich shall be conforming consistently to the stated amp implied needs of the user
DEAL is also committed to ascertain the continuous improvements through the periodic review of Quality Management System
Areas of WorkDEALDehradun
Areas of Work Data Links Software Radios Satellite Communication Microwave amp Millimeter Systems Image Processing amp Analysis
DEAL Dehradun(See Multidisciplinary Engg Disciplines)
Facilities Available Center for Advanced Mechanical
Engineering (CAME) MIC Computer Aided Design Product Assurance EMI EMC
DLRL Hyderabad VISION To Be a Center of excellence in
the field of Electronic Warfare MISSION Design and development
Evaluation and ToT leading to productionization and Induction of World Class Electronic Warfare Systems Establish Self Reliance in this Critical Technology
DLRLs core competence lies in Design amp Development of Electronic Warfare systems Technologies amp Components They are listed as under SYSTEMS
Design of Electronic Warfare Systems(COMINTELINTESMECM)
Development of hardware and software of sub systems System integration and evaluation on various platforms -
vehicles ships submarines helicopters aircrafts airborne pods
TECHNOLOGIES Multi octave band antennas and radomes Multi octave band MicrowaveMillimeter Wave components amp
super components Narrow bandwide band intercept receivers Broad band high accuracy Direction Finding receivers High power transmitters for ECM Multi beam jammer transmitters Frequency Memory Loops amp Digital Radio Frequency Memories
for jammers
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
CEL-Solar Photovoltaic Group The function of this business unit is to manufacture and market Solar
Voltaic Cells Modules and complete systems in India amp AbroadCentral Electronics Limited (CEL) is the pioneer and one of the largest manufacturers of Solar-Photovoltaic (SPV) Cells Modules and Systems in India Through own RampD efforts spread over a decade of continuous efforts the company has converted a laboratory concept into an industrial technologyCEL with its commitment to harness the solar energy has opened up new vistas in the field of solar photovoltaic
Backed by an integrated production facility to manufacture Mono-Crystalline Silicon Solar Cells and Modules with the state-of-the-art screen-printing technology the company has supplied more than 5 Lakhs SPV Systems in India and abroad covering both rural and industrial applications CEL is in process of enhancing its modules manufacturing capacity to 40 MWp and the production is expected to start by August 2014
CEL products conform to stringent National amp International Standards The PV modules are tested for IEC 6121561730by TUV Rheinland
Our modules have been successfully tested by Solar Energy Centre (SEC) of the Ministry of Non-conventional Energy Sources (MNES) Govt of India
CEL Solar Panel Applications
SOLAR PHOTOVOLTAIC MODULES PM10
CELrsquos Solar Photovoltaic Modules type PM10 are manufactured using Mono Crystalline Silicon Solar Cells These are high quality and
high performance modules suitable for power generation These modules have excellent durability to withstand extreme temperature
and weather conditions of the high altitudes deserts and coastal regions FEATURES 1048698 Uses mono crystalline silicon Solar Cells 1048698 Suitable for DC 12V24V systems or multiple there-of 1048698 Encapsulation of cells using UV stabilized polymer (EVA) and protective back
cover using Tedler-Polyester-Tedlar 1048698 High transmission toughened glass superstrate and anodized aluminum frame
for mounting 1048698 Long service Life APPLICATIONSSOLAR PV MODULE PM10SPECIFICATION Physical Parameters Environmental Rating Specification subject to change without prior notice due to continuous in-house
improvements 1 Lighting 6 Telecommunication 2 Television 7 Refrigeration 3 Water Pumping 8 Railway Signaling 4Rural Electrification 9 Remote Resort Power 5 Power Plants
DEAL(Defence Electronics Appn Lab)Dehradun DEAL is committed to provide the required
resources infrastructure and an effective amp efficient Quality Management System for timely completion of the design and development of the productswhich shall be conforming consistently to the stated amp implied needs of the user
DEAL is also committed to ascertain the continuous improvements through the periodic review of Quality Management System
Areas of WorkDEALDehradun
Areas of Work Data Links Software Radios Satellite Communication Microwave amp Millimeter Systems Image Processing amp Analysis
DEAL Dehradun(See Multidisciplinary Engg Disciplines)
Facilities Available Center for Advanced Mechanical
Engineering (CAME) MIC Computer Aided Design Product Assurance EMI EMC
DLRL Hyderabad VISION To Be a Center of excellence in
the field of Electronic Warfare MISSION Design and development
Evaluation and ToT leading to productionization and Induction of World Class Electronic Warfare Systems Establish Self Reliance in this Critical Technology
DLRLs core competence lies in Design amp Development of Electronic Warfare systems Technologies amp Components They are listed as under SYSTEMS
Design of Electronic Warfare Systems(COMINTELINTESMECM)
Development of hardware and software of sub systems System integration and evaluation on various platforms -
vehicles ships submarines helicopters aircrafts airborne pods
TECHNOLOGIES Multi octave band antennas and radomes Multi octave band MicrowaveMillimeter Wave components amp
super components Narrow bandwide band intercept receivers Broad band high accuracy Direction Finding receivers High power transmitters for ECM Multi beam jammer transmitters Frequency Memory Loops amp Digital Radio Frequency Memories
for jammers
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
CEL Solar Panel Applications
SOLAR PHOTOVOLTAIC MODULES PM10
CELrsquos Solar Photovoltaic Modules type PM10 are manufactured using Mono Crystalline Silicon Solar Cells These are high quality and
high performance modules suitable for power generation These modules have excellent durability to withstand extreme temperature
and weather conditions of the high altitudes deserts and coastal regions FEATURES 1048698 Uses mono crystalline silicon Solar Cells 1048698 Suitable for DC 12V24V systems or multiple there-of 1048698 Encapsulation of cells using UV stabilized polymer (EVA) and protective back
cover using Tedler-Polyester-Tedlar 1048698 High transmission toughened glass superstrate and anodized aluminum frame
for mounting 1048698 Long service Life APPLICATIONSSOLAR PV MODULE PM10SPECIFICATION Physical Parameters Environmental Rating Specification subject to change without prior notice due to continuous in-house
improvements 1 Lighting 6 Telecommunication 2 Television 7 Refrigeration 3 Water Pumping 8 Railway Signaling 4Rural Electrification 9 Remote Resort Power 5 Power Plants
DEAL(Defence Electronics Appn Lab)Dehradun DEAL is committed to provide the required
resources infrastructure and an effective amp efficient Quality Management System for timely completion of the design and development of the productswhich shall be conforming consistently to the stated amp implied needs of the user
DEAL is also committed to ascertain the continuous improvements through the periodic review of Quality Management System
Areas of WorkDEALDehradun
Areas of Work Data Links Software Radios Satellite Communication Microwave amp Millimeter Systems Image Processing amp Analysis
DEAL Dehradun(See Multidisciplinary Engg Disciplines)
Facilities Available Center for Advanced Mechanical
Engineering (CAME) MIC Computer Aided Design Product Assurance EMI EMC
DLRL Hyderabad VISION To Be a Center of excellence in
the field of Electronic Warfare MISSION Design and development
Evaluation and ToT leading to productionization and Induction of World Class Electronic Warfare Systems Establish Self Reliance in this Critical Technology
DLRLs core competence lies in Design amp Development of Electronic Warfare systems Technologies amp Components They are listed as under SYSTEMS
Design of Electronic Warfare Systems(COMINTELINTESMECM)
Development of hardware and software of sub systems System integration and evaluation on various platforms -
vehicles ships submarines helicopters aircrafts airborne pods
TECHNOLOGIES Multi octave band antennas and radomes Multi octave band MicrowaveMillimeter Wave components amp
super components Narrow bandwide band intercept receivers Broad band high accuracy Direction Finding receivers High power transmitters for ECM Multi beam jammer transmitters Frequency Memory Loops amp Digital Radio Frequency Memories
for jammers
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
SOLAR PHOTOVOLTAIC MODULES PM10
CELrsquos Solar Photovoltaic Modules type PM10 are manufactured using Mono Crystalline Silicon Solar Cells These are high quality and
high performance modules suitable for power generation These modules have excellent durability to withstand extreme temperature
and weather conditions of the high altitudes deserts and coastal regions FEATURES 1048698 Uses mono crystalline silicon Solar Cells 1048698 Suitable for DC 12V24V systems or multiple there-of 1048698 Encapsulation of cells using UV stabilized polymer (EVA) and protective back
cover using Tedler-Polyester-Tedlar 1048698 High transmission toughened glass superstrate and anodized aluminum frame
for mounting 1048698 Long service Life APPLICATIONSSOLAR PV MODULE PM10SPECIFICATION Physical Parameters Environmental Rating Specification subject to change without prior notice due to continuous in-house
improvements 1 Lighting 6 Telecommunication 2 Television 7 Refrigeration 3 Water Pumping 8 Railway Signaling 4Rural Electrification 9 Remote Resort Power 5 Power Plants
DEAL(Defence Electronics Appn Lab)Dehradun DEAL is committed to provide the required
resources infrastructure and an effective amp efficient Quality Management System for timely completion of the design and development of the productswhich shall be conforming consistently to the stated amp implied needs of the user
DEAL is also committed to ascertain the continuous improvements through the periodic review of Quality Management System
Areas of WorkDEALDehradun
Areas of Work Data Links Software Radios Satellite Communication Microwave amp Millimeter Systems Image Processing amp Analysis
DEAL Dehradun(See Multidisciplinary Engg Disciplines)
Facilities Available Center for Advanced Mechanical
Engineering (CAME) MIC Computer Aided Design Product Assurance EMI EMC
DLRL Hyderabad VISION To Be a Center of excellence in
the field of Electronic Warfare MISSION Design and development
Evaluation and ToT leading to productionization and Induction of World Class Electronic Warfare Systems Establish Self Reliance in this Critical Technology
DLRLs core competence lies in Design amp Development of Electronic Warfare systems Technologies amp Components They are listed as under SYSTEMS
Design of Electronic Warfare Systems(COMINTELINTESMECM)
Development of hardware and software of sub systems System integration and evaluation on various platforms -
vehicles ships submarines helicopters aircrafts airborne pods
TECHNOLOGIES Multi octave band antennas and radomes Multi octave band MicrowaveMillimeter Wave components amp
super components Narrow bandwide band intercept receivers Broad band high accuracy Direction Finding receivers High power transmitters for ECM Multi beam jammer transmitters Frequency Memory Loops amp Digital Radio Frequency Memories
for jammers
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
DEAL(Defence Electronics Appn Lab)Dehradun DEAL is committed to provide the required
resources infrastructure and an effective amp efficient Quality Management System for timely completion of the design and development of the productswhich shall be conforming consistently to the stated amp implied needs of the user
DEAL is also committed to ascertain the continuous improvements through the periodic review of Quality Management System
Areas of WorkDEALDehradun
Areas of Work Data Links Software Radios Satellite Communication Microwave amp Millimeter Systems Image Processing amp Analysis
DEAL Dehradun(See Multidisciplinary Engg Disciplines)
Facilities Available Center for Advanced Mechanical
Engineering (CAME) MIC Computer Aided Design Product Assurance EMI EMC
DLRL Hyderabad VISION To Be a Center of excellence in
the field of Electronic Warfare MISSION Design and development
Evaluation and ToT leading to productionization and Induction of World Class Electronic Warfare Systems Establish Self Reliance in this Critical Technology
DLRLs core competence lies in Design amp Development of Electronic Warfare systems Technologies amp Components They are listed as under SYSTEMS
Design of Electronic Warfare Systems(COMINTELINTESMECM)
Development of hardware and software of sub systems System integration and evaluation on various platforms -
vehicles ships submarines helicopters aircrafts airborne pods
TECHNOLOGIES Multi octave band antennas and radomes Multi octave band MicrowaveMillimeter Wave components amp
super components Narrow bandwide band intercept receivers Broad band high accuracy Direction Finding receivers High power transmitters for ECM Multi beam jammer transmitters Frequency Memory Loops amp Digital Radio Frequency Memories
for jammers
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Areas of WorkDEALDehradun
Areas of Work Data Links Software Radios Satellite Communication Microwave amp Millimeter Systems Image Processing amp Analysis
DEAL Dehradun(See Multidisciplinary Engg Disciplines)
Facilities Available Center for Advanced Mechanical
Engineering (CAME) MIC Computer Aided Design Product Assurance EMI EMC
DLRL Hyderabad VISION To Be a Center of excellence in
the field of Electronic Warfare MISSION Design and development
Evaluation and ToT leading to productionization and Induction of World Class Electronic Warfare Systems Establish Self Reliance in this Critical Technology
DLRLs core competence lies in Design amp Development of Electronic Warfare systems Technologies amp Components They are listed as under SYSTEMS
Design of Electronic Warfare Systems(COMINTELINTESMECM)
Development of hardware and software of sub systems System integration and evaluation on various platforms -
vehicles ships submarines helicopters aircrafts airborne pods
TECHNOLOGIES Multi octave band antennas and radomes Multi octave band MicrowaveMillimeter Wave components amp
super components Narrow bandwide band intercept receivers Broad band high accuracy Direction Finding receivers High power transmitters for ECM Multi beam jammer transmitters Frequency Memory Loops amp Digital Radio Frequency Memories
for jammers
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
DEAL Dehradun(See Multidisciplinary Engg Disciplines)
Facilities Available Center for Advanced Mechanical
Engineering (CAME) MIC Computer Aided Design Product Assurance EMI EMC
DLRL Hyderabad VISION To Be a Center of excellence in
the field of Electronic Warfare MISSION Design and development
Evaluation and ToT leading to productionization and Induction of World Class Electronic Warfare Systems Establish Self Reliance in this Critical Technology
DLRLs core competence lies in Design amp Development of Electronic Warfare systems Technologies amp Components They are listed as under SYSTEMS
Design of Electronic Warfare Systems(COMINTELINTESMECM)
Development of hardware and software of sub systems System integration and evaluation on various platforms -
vehicles ships submarines helicopters aircrafts airborne pods
TECHNOLOGIES Multi octave band antennas and radomes Multi octave band MicrowaveMillimeter Wave components amp
super components Narrow bandwide band intercept receivers Broad band high accuracy Direction Finding receivers High power transmitters for ECM Multi beam jammer transmitters Frequency Memory Loops amp Digital Radio Frequency Memories
for jammers
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
DLRL Hyderabad VISION To Be a Center of excellence in
the field of Electronic Warfare MISSION Design and development
Evaluation and ToT leading to productionization and Induction of World Class Electronic Warfare Systems Establish Self Reliance in this Critical Technology
DLRLs core competence lies in Design amp Development of Electronic Warfare systems Technologies amp Components They are listed as under SYSTEMS
Design of Electronic Warfare Systems(COMINTELINTESMECM)
Development of hardware and software of sub systems System integration and evaluation on various platforms -
vehicles ships submarines helicopters aircrafts airborne pods
TECHNOLOGIES Multi octave band antennas and radomes Multi octave band MicrowaveMillimeter Wave components amp
super components Narrow bandwide band intercept receivers Broad band high accuracy Direction Finding receivers High power transmitters for ECM Multi beam jammer transmitters Frequency Memory Loops amp Digital Radio Frequency Memories
for jammers
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
DLRLs core competence lies in Design amp Development of Electronic Warfare systems Technologies amp Components They are listed as under SYSTEMS
Design of Electronic Warfare Systems(COMINTELINTESMECM)
Development of hardware and software of sub systems System integration and evaluation on various platforms -
vehicles ships submarines helicopters aircrafts airborne pods
TECHNOLOGIES Multi octave band antennas and radomes Multi octave band MicrowaveMillimeter Wave components amp
super components Narrow bandwide band intercept receivers Broad band high accuracy Direction Finding receivers High power transmitters for ECM Multi beam jammer transmitters Frequency Memory Loops amp Digital Radio Frequency Memories
for jammers
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
DLRL-Projects SAMYUKTA SAMYUKTA is a joint DRDO and Army integrated EW programme This
programme which is software and integration intensive is meant to develop an indigenous production base for futuristic integrated EW systems It has communication amp non-communication segments and the whole system is meant for mobile tactical battlefield use The system comprising of about 140 entities has the capabilities for surveillance interception monitoring analysis recording location fixing and jamming of all communicatiion and radar signals (from HF to MMW band)
SANGRAHA SANGRAHA is a joint EW Programme of DRDO and Navy The system comprises of a family of EW suites for different Naval platforms capable of intercepting detecting and classifying pulsed CW PRF agile frequency agile and chirp radars The systems employ modular approach facilitating deployment on a variety of platforms viz helicopters vehicles small ships etc Certain specific platforms apart from ESM also have ECM capabilities State-of-the-art technologies like Multiple Beam Phased array jammers are employed in the system for simultaneous handling of multiple threats
DIVYA DRISHTIDivya Drishti is a joint SI Dte ndash DRDO programme with the aim of interception monitoring direction finding and analysis (IMDFAS) of communication signals The system will be installed at various locations on static and mobile stations All stations will be connected through a satellite communication network The system caters to the mission of building aircraft flight profile (Mission Analysis)
SUJAVSujav is an integrated compact communication EW system developed for various users in different configurations It covers HF VHF amp UHF ranges and available in cluster configuration for Army use or in suite configuration for Navyrsquos ground as well as onboard usage It has full capability to detect locate amp jam frequency agile communications as well as monitoring amp recording of conventional
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
RADAR FINGER PRINTING SYSTEM RADAR FINGER PRINTING SYSTEMThe system has
the capability of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms
AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
FINGER PRINTING SYSTEM-DLRL FINGER PRINTING SYSTEMThe system has the capability
of providing lsquoUnique Identification of emitters among a class of emittersrsquo based on intra-pulse analysis of Radar waveforms The system measures the frequency phase and amplitude variations within the Radar pulse
Intra pulse analysis extracts as many parameters (features) of Radar pulses as possible with fine grain accuracy Self-reliance in this critical area has been achieved paving the way for installation of the system in various configurations on various platforms AEWampC (CSM) It is a Communication Support Measures (CSM) system being developed for AEWampC programme
The system will have the capability to search intercept detect direction finding monitor identification record amp analyse communication signals and can report of voice data transmission in fixed frequency and frequency hopping modes
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Bharat Electronics Limited (BEL Bharat Electronics Limited (BEL) is a
state-owned electronics company with about nine factories and few regional offices in India
It is owned by the Indian Government amp primarily manufactures advanced electronic products for the Indian Armed Forces BEL is one of the eight PSUs under Ministry of Defence Government of India It has even earned the governments Navratna status
As of 1 April 2012 BELs order book is estimated to be around 257 billion (US$42 billion)
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
BEL designs develops and manufactures products Telecommunications Sound and Vision Broadcasting Opto-electronics Information Technology Semiconductors Missiles Sonars Composite Communication System (CCS) Fire-control system Radar Electronic Warfare Systems Simulators Tank electronics
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
BEL Defence Communications Solar systems Naval systems ADCampRS IACCS A low-cost tablet pc being used in
Socio-Economic Caste Census 2011 Biometrics Capturing for Nation Population Register Encrypters for Ministry of Home Affairs IFF(Identify Friend or Foe) secondary Radar SSMC(Static Sensor Monitoring amp Control) some products are
manufactured by Bharat Electronics Ltd with help of ToT (Transfer of Technology)
Locations[ Units of Bharat Electronics Limited are in the following cities of
India
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
CDAC- Centre for Development of Advanced Computing (C-DAC) Centre for Development of Advanced Computing
(C-DAC) Pune occupies a special place in the evolution of the organization as a premier hub for cutting edge RampD Bestowed with the distinction of being the first C-DAC centre to be established in the country C-DAC Pune has been at the forefront of the organizations RampD initiatives and spearheading several national programmes of strategic importance C-DAC Pune is credited for the first indigenously developed PARAM supercomputer and establishing the nationacircTs credentials as an enabler of advanced technologies While placing India on the select world map of supercomputing nations C-DAC Pune has continued to pioneer the open frame architecture to deliver PARAM Yuva which was also IndiaacircTs fastest supercomputer and rated 64 among worlds top supercomputers
C-DAC Pune is also recognized for promoting the concept of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
CDAC Pune C-DAC Pune is also recognized for promoting the concept
of multilingual computing in the country to take IT to the grassroots level by defining the standards for the adoption of Indian languages on computers Since then the centre has made great strides in this arena through products and technologies that have created a new platform for multilingual users in India as well as abroad
The expertise garnered through the years of experience has also led C-DAC Pune to diversify its activities to other domains of advanced RampD namely geomatics human-centred design amp computing health informatics and education amp training
This in turn has elevated C-DAC Pune into the role of a mentor and an incubator of innovation in the greater national interest
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
CDAC- High Performance Computing (HPC) High Performance Computing (HPC) plays an
important role in both scientific advancement and economic competitiveness of a nation - making production of scientific and industrial solutions faster less expensive and of higher quality
HPC is a key component in many applications designing vehicles and airplanes designing high-rise buildings and bridges discovery of drugs discovery and extraction of new energy sources like oil and natural gas weather forecasting and many more
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
CDAC Pune As part of the mandate to generate
manpower to address the growing demand for trained manpower in the advanced areas of Information Technology C-DAC Pune established its Advanced Computing Training School (ACTS) Currently the centre offers a variety of course options including for international collaborations
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
The supercomputing systems and facilities of C-DAC The supercomputing systems and facilities of C-DAC are used to solve computationally
challenging problems in a number of areas of practical significance These include Computational Atmospheric Science Mesoscale modeling Climate system model Medium range weather forecasting Air quality modeling and management Computational Biology Genome sequence assembly Microarray data analysis Structure-based drug discovery Protein folding Molecular Dynamics simulation Computational Fluid Dynamics Viscous compressible unsteady flows Laminar natural convection flows Fluid flow and heat transfer for heat exchangers Simulation of fire in high rise buildings Computational Structural Mechanics Stress analysis of fibre reinforced composite structures Fracture mechanics Nonlinear stability analysis Seismic vulnerability analysis Hazard assessment of civil structures
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Computer Aided engineering group in C-DAC CAE is mainly used to analyze the robustness and
performance of various types of components engineering assemblies and structures The term encompasses simulation validation and optimization of engineering products and tools In the future CAE systems will be major providers of information to support design teams in decision making Thus it helps mankind in various aspects like saving in efforts by analyzing a product from different perspective using modeling and simulations It facilitates analysis of complicated structures
Computer Aided engineering group in C-DAC mainly aims at using Super Computers in the field of Stress analysis using FEA (Finite Element Analysis) and Computational fluid dynamics
CAE group comprises of two sub teams Computational Structural Mechanics and Computational Fluid Dynamics
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
CDAC Pune Computational Structural Mechanics
team is engaged in the areas of earthquake engineering computational mechanics and composite materials using high-performance computing and grid infrastructure
Earthquake Engineering is a thrust area because of its demand for high performance computers
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Integrated Electronics And Circuits IIT Delhi The Integrated Electronics and Circuits (IEC) group comprises of 12 faculty
members The group offers an MTech Programme in Integrated Electronics and Circuits In addition a number of group members contribute actively to the MTech Programme in VLSI design Tool and Technology (VDTT) which became operational since July 1996The VDTT programme is industry sponsored and is interdisciplinary Each programme has a typical intake of 15 students There are typically 10 PhD students in the groupThe IEC faculty is actually involved in research and development activities in Digital Signal Processing VLSI Design Analog Circuit Design Artificial Neural Networks Circuit Testing Fault-Tolerance Fail-Safe Design Microelectronics and Power Devices and regularly in publish in reputed international journals and conference proceedings
Many IEC faculties are associated with the editorial boards of leading journals and programme committees of reputed conferences The IEC group members contribute actively to the Memorandum of Understanding between IIT Delhi and the Central Electronics Engineering Research Institute Pilani as well as another with the Defense Research and Development Organization Students have access to the Electronics IMPACT VLSI and VDTT laboratories which have several networked PCs workstations and public domain and commercial software packages for circuit and VLSI design and digital signal processing Several hardware facilities for circuit prototyping testing and signal processing are also available
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
IIT Delhi
MTech Programmes [duration 2 years4 semester]
Master of Technology is a 2 Post-Graduate Program year Program for specializing in certain areas of Electrical Engineering
Electrical Department offers MTech program in the following specializations
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
IIT Delhi
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
IEC Group- IIT Delhi The IEC group is involved in standalone as well as collaborative
reasearch encompassing various fields like VLSI Design Analog Circuit Design Artificial Neural Networks Fault-tolerant Design Microelectronics and Power Devices Digital Signal Processing etc
It runs the oldest VLSI program in the country(Since 1976)The distinguished faculty members have authored and co-authored several books Research papers are regularly published in reputed journals and conference proceedings and students are encouraged to contribute to the same A number of international and national awards have been conferred upon the group members Many of the faculty members are associated with the editorial boards of leading journals and the programme committees of several conferences
The group contributes actively to the Memorandum of Understanding between IIT delhi and leading reasearch organisations in the country like the Central Electronics Engineering Research Institute Pilani (CEERI) and Defence Research and Development Organisation (DRDO) as well as a number of industry leaders in VLSI design
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
The Computer Technology Group The Computer Technology Group pursues research in broad areas of
Computer Networking Sensor Networks Embedded Systems Parallel and Distributed Processing Big Data Analysis CAD for VLSI Computer Vision and Image Analysis Biometrics Pattern Recognition Machine Learning Data Analytics Neural Networks Artificial Intelligence and Soft Computing Multimedia Systems Graph Theory Systems Biology Bioinformatics and Music and Audio Processing The group comprises of faculty members and PhD MS(Research) MTech and Dual Degree students
It may be interesting to note that the Computer Technology programme has been selected as one of the top 5 Masters programmes in the entire institute There were three programmes from the Electrical Engineering Department in this elite group the other two programmes being the Integrated Electronics and Circuits (IEC) programme and the VLSI Design Tool and Technologies (VDTT) programme (which is jointly run with the Department of Computer Science and Engineering This is indeed a great honour for the group since the other three Computer-related Masters programmes do not figure in this list of top 5 - the MTech in Computer Science and Engineering of the Department of Computer Science and Engineering the MTech in Computer Applications of the Department of Mathematics and the MS(R) of the Shashi and Amar Nath School of Information Technology
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
IIT Delhi Multilingual OCRs for Indian Scripts (A Rs11 crore multi-institutional
project coordinated by the group sponsored by the MCIT Government of India)
Autonomous Robotics (a Rs9 crore project involving 5 groups two in the EE Department sponsored by the BRNS Government of India)
Wireless Sensor Networks (a Rs432 crore project sponsored by the NAIP)
National Programme in Perception Engineering (a Re1 crore multi-institutional project jointly coordinated by the group sponsored by the MCIT Goverment of India) Currently in Phase II (a multi-institutional project sponsored by the MCIT Government of India with the IITD outlay itself Rs26082 crores)
Satellite Communication (a Rs65 lakhs project sponsored by the ADA Government of India)
Indian Digital Heritage Project (a multi-institutional project coordinated by the group sponsored by the DST Goverment of India)
3-D TV (sponsored by the DST Government of India) Green sensor networks (sponsored by Alcatel)
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
NIT Hamirpur(B Tech Syllabus) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits 15 Compulsory credits from basic and professional courses = 190 Credits for Department Elective amp Open Elective Courses = 21 Total credits = 211
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
NIT syllabus Basic Core Courses S No Course No Course Title Credits 1 PH-101 Engineering Physics 4 2 MA-111 Engineering Mathematics-I 4 3 ME-101 Engineering Mechanics amp Strength of
Materials 4 4 EE-101 Basic Electrical Engineering 4 5 HS-101 Communication Skills 3 6 CS-101 Computer Fundamentals amp
Programming 4 7 MA-121 Engineering MathematicsndashII 4
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Professional Core Courses
S No Course No Course Title Credits 1 EC-211 Analog Electronics 4 2 EC-212 Digital Electronics amp Logic Design 4 3 EC-213 Communication Theory 4 4 EC -214 Electromagnetic Field Theory 4 5 EC-215 Network Analysis amp Synthesis 4 6 EC-221 Linear Integrated Circuits 4 7 EC-222 Electronic Switching Circuits 4 8 EC-223 Analog Communication Systems 4 9 EC-224 VLSI amp MEMS Technology 4 10 EC -225 Electronic Measurement amp Instrumentation 4 11 EC -311 Microprocessor Theory amp Applications 4 12 EC-312 Digital Communication Systems 4 13 EC-313 Antenna and Wave Propagation 4 14 EC-315 Signal and Wave Shaping 4 15 EC-321 Microcontroller amp Embedded Systems 4
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
NIT Hamirpur 16 EC-322 Wireless Communication 4 17 EC -323 Industrial Electronics 4 18 EC-411 Data Communication amp Computer Networks 4 19 EC-412 Digital Signal Processing 4 20 EC- 413 Optical amp Network Communication Systems 4 21 EE- 416 Control Systems 4 22 EC-421 Microwave Devices amp Systems 4 23 CS-426 Computer Architecture amp Organization 4 Laboratories 14 25 Industrial Training 2 26 Seminar Colloquium 2 27 Project 6 Total Credits 116 Open Electives
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Electives NIT Hamirpur
EC -310 (a) Electronic Measurement amp Instrumentation 3
EC-310 (b) MEMS amp Sensor Design II EC -320(a) Biomedical Electronics
3 EC-320(b) HDL based FPGA Design EC-320(c) Reliability Engineering Total
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
NIT-BTech (ElectronicsComm) Scheme of Courses and Syllabus for BTech Electronics amp Communication Engineering 4 Department Electives Department Electives Course No Course Title Credits DE- I EC -314 (a) Electronic Device Modeling 3 EC -314 (b) TV amp Radar EC -314 (c) MEMS amp Sensor Design DE- II EC-324 (a) Digital amp Analog VLSI Design 3 EC-324 (b) Satellite Communication DE- III EC-415 (a) System Design using HDL 3 EC-415 (b) Mobile Communication EC-415 (c) Biomedical Electronics DE- IV EC-422 (a) Image Processing 3 EC-422 (b) Wireless Sensor Networks EC-422 (c) VLSI Testing amp Testability DE- V EC-423 (a) Optical Networks 3 EC-423 (b) Spread Spectrum amp CDMA EC-423 (c) VLSI Interconnect amp Packaging EC-423 (d) Nanoelectronics Total Credits
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Various CAD tools used in IndustryLabsIITrsquos
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
CircuitCREATORtrade CAE system CircuitCREATORtrade CAE system is the most complete and high performance solution for electronic design
using IBM and compatible personal computers The integrated system includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router Gerber Viewer and complete CAM (Computer Aided Manufacturing) support
CircuitCREATOR Platinum Plustrade is the true professional level system and includes Professional Schematic Design and Capture full interactive Symbol Editor Circuit Simulation professional Printed Circuit Board Design and Layout Automatic Routing Gerber Viewer and CamCreator ndash Computer Aided Manufacturing Support
CircuitCREATOR Platinumtrade all the functionality of the Platinum Plus version except CAM Support capability
CircuitCREATOR Protrade includes professional Schematic Design and Capture full interactive Symbol Editor professional Printed Circuit Board Design and Layout Automatic Routing and Gerber Viewer
CircuitCREATOR STD Plustrade includes Standard Schematic Design and Capture full interactive Symbol Editor Printed Circuit Board Design and Layout and Auto Router
CircuitCREATOR Stdtrade includes Standard Schematic Design and Capture full interactive Symbol Editor standard Printed Circuit Board Design and Layout
CircuitCREATOR Tutortrade is the ideal system for the educational institution instructors and students It includes Schematic Capture Symbol Editor Circuit Simulation PCB Layout Editor Automatic Router and student workbook titled ldquoElectronic Design Simulation and PCB Design Using CircuitCREATORrdquo The book is a step-by-step instructional guide along with a Question amp Answer section at the end of each chapter and proposed student projects It also includes the Instructorrsquos Manual which includes the answers to the student projects
CircuitDESIGN Tutortrade includes full Schematic Design and Capture Circuit Simulator full interactive Symbol Editor and award winning book titled ldquoCircuit Design and Simulation Using SpiceCREATORrdquo The engineering curriculum workbook explains with easy-to-follow step-by-step directions how to enter a schematic design and perform various analysis such as DC AC Transient Noise and Distortion It also explains different type of Filter Design such as Butterworth Chebychev Bessel and Gaussian Includes student projects and Instructorrsquos Manual
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
LogicSim is a java software LogicSim is a java software that helps you simulate digital
circuits You can design and simulate digital logic circuits with logic gates like AND OR FlipFlop etc under almost all operational systems You can create your own gates by saving a circuit as a ldquomodulerdquo and reuse this module in another circuit
The following types of logic gates are included Basic AND NAND OR NOR XOR (Antivalence)
Equivalence NOT Flip Flops RS D T JK JKMS Timers Clock generator MonoFlop Turn on delay Turn off
delay Inputs Switch number-input for decimal and hexadecimal
values Outputs LED LCD for decimal and hexadecimal values LogicSim ndash Digital logic circuits simulator -
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
EAGLE PCB Software The EAGLE Light Edition can be used for free How do I get it Follow these steps to install the free EAGLE Light Edition on your system Go to the Download area and get the file that contains the EAGLE program installation data for your operating
system (Linux Windows or Mac) Install the file you have downloaded onto your system When you first start EAGLE you will be asked whether you have a personalized license disk or
whether you want to run EAGLE as Freeware To use the Freeware license select the ldquoRun as freewarerdquo button
Limitations The following limitations apply to the EAGLE Light Edition in general The useable board area is limited to 100 x 80 mm (4 x 32 inches) Only two signal layers can be used (Top and Bottom) The schematic editor can only create one sheet Apart from these three limitations the EAGLE Light Edition can do anything the Professional Edition
can do You can even load view and print drawings that exceed these limits The Freeware version of EAGLE Light adds these limitations Support is only available via email or through our forum (no fax or phone support) Use is limited to non-profit applications or evaluation purposes What does ldquonon-profitrdquo mean The definition of non-profit is fairly simple and straightforward If you earn (or save) money by using the Freeware version of EAGLE Light you have to register it This allows anybody who wishes to use EAGLE Light for their private hobby projects to do so Also
students can use this version for any educational projects It is even ok to use this version in a commercial environment as long as you just want to evaluate the program As soon as you start using it for commercial projects you will have to register it As an exception to this board manufacturers may use the Freeware Light Edition to generate production data (eg Gerber files) from board files they have received from EAGLE users
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Ansys FEA ver 15 software
ANSYS simulation software enables organizations to confidently predict how their products will operate in the real world
We believe that every product is a promise of something greater
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
ANSYS offers a comprehensive software ANSYS offers a comprehensive software suite that spans
the entire range of physics providing access to virtually any field of engineering simulation that a design process requires Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment
Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools These ANSYS Advantages add value to the engineering design process by delivering efficiency driving innovation and reducing physical constraints enabling simulated tests that might not be possible otherwise
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
RFMicrowave Circuit Design Software Microwave Office
RFMicrowave Circuit Design Software Microwave Office
The Microwave Officereg design suite is the most comprehensive software solution for designers of all types of RF and microwave circuits from integrated microwave assemblies to monolithic microwave integrated circuits (MMICs) and everything in between
Renowned for its intuitive user-interface the unique architecture of Microwave Office software seamlessly integrates powerful innovative tools and technologies with application-specific tools from partner companies to bring their high-frequency designs to life quickly and easily From design capture (schematic and layout) through to harmonic balance and time-domain simulation to synthesis and optimization and EM extraction and verification Microwave Office software represents the future of high-frequency design
Microwave Office Capabilities amp Applications
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
CircuitMaker CircuitMaker is the most powerful easy-
to-use schematic capture and simulation tool in its class Using CircuitMakers advanced schematic capabilities you can design electronic circuits and output netlists for TraxMaker and other PCB design tools and autorouters
You can also perform fast accurate simulations of digital analog and mixed analogdigital circuits using CircuitMakers Berkeley SPICE3f5XSpice-based simulator
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
PSpice Student PSpice Student is an analog circuit
simulator that was specially designed for Electrical Engineering students in need of simulating circuits and of solving circuits-related calculations
If you find yourself in the posture of not understanding a bit of what your professor is teaching you in Circuit Theory class then you should definitely try this software
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Mathworks(Signal to Noise Ratio)
Product Capabilities Technical Computing Simulation and Model-Based Design Your Application Acquire process and analyze images and
video for algorithm development and system design
Acquire process and analyze images and video for algorithm development and system design
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
r = snr(pxxfpsd) specifies the input pxx as a one-sided power spectral density (PSD) estimate The argument f is a vector of the frequencies at which the estimates of pxx occur The computation of noise excludes the power of the first six harmonics including the fundamental
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Telemetry Telemetry is the highly automated communications
process by which measurements are made and other data collected at remote or inaccessible points and transmitted to receiving equipment for monitoring The word is derived from Greek roots tele = remote and metron = measure Systems that need external instructions and data to operate require the counterpart of telemetry telecommand
Although the term commonly refers to wireless data transfer mechanisms (eg using radio ultrasonic or infrared systems) it also encompasses data transferred over other media such as a telephone or computer network optical link or other wired communications like phase line carriers Many modern telemetry systems take advantage of the low cost and ubiquity of GSM networks by using SMS to receive and transmit telemetry data
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
LG- TVrsquos and Music systems
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Solid State devices Solid State Devices They are Electronic device that
operates on the basis of the electric magnetic or optical properties of a solid material especially one that uses a solid crystal in which an orderly three-dimensional arrangement of atoms ions or molecules is repeated throughout the entire
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
HP Desktop computers
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Digital signal processing (DSP) Digital signal processing (DSP) is the mathematical manipulation of an
information signal to modify or improve it in some way It is characterized by the representation of discrete time discrete frequency or other discrete domain signals by a sequence of numbers or symbols and the processing of these signals
The goal of DSP is usually to measure filter andor compress continuous real-world analog signals Usually the first step is conversion of the signal from an analog to a digital form by sampling and then digitizing it using an analog-to-digital converter (ADC) which turns the analog signal into a stream of discrete digital values Often however the required output signal is also analog which requires a digital-to-analog converter (DAC) Even if this process is more complex than analog processing and has a discrete value range the application of computational power to signal processing allows for many advantages over analog processing in many applications such as error detection and correction in transmission as well as data compression
Digital signal processing and analog signal processing are subfields of signal processing DSP applications include audio and speech signal processing sonar and radar signal processing sensor array processing spectral estimation statistical signal processing digital image processing signal processing for communications control of systems biomedical signal processing seismic data processing among others DSP algorithms have long been run on standard computers as well as on specialized processors called digital signal processors and on purpose-built hardware such as application-specific integrated circuit
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Major policy initiatives of Government of India Major policy initiatives of Government of India which
have a direct bearing on Electronic System Design and Manufacturing sector
India is one of the fastest growing markets for electronics The demand is projected to reach USD 400 Billion by 2020 Government of India (GoI) has launched the National Policy on Electronics 2012 (NPE 12) with the vision to make India a globally competitive destination for Electronics System Design and Manufacturing (ESDM) Besides India has large young talent low wage costs and Government of India
The National Telecom Policy 2012 (NTP 2012) works in conjunction with NPE 2012 and provides for creating a design and manufacturing ecosystem for telecom equipment
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Policies-DeitDIPPMfg Policy bull National Policy on Electronics DeitY
2012(413 MB)bull DeitY Logo for ESDM jpeg(838 KB) cdr(415 KB) pdf(388 KB)bull Usage of BrandElectronics India logo DeitY June 2014 (553 KB)bull National Telecom Policy Dept of Telecom 2012
bull National Manufacturing Policy (2012) DIPPMinistry of Commerce amp Industry 2012 bull Semiconductor IC Layout Design Rules 2001 bull Semiconductor IC Layout Design Act 2000
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
bull Presentation Electronics India Second Sunrise October 2013(927 KB)bull Indian ESDM Market - Analysis of Opportunity and Growth plan An IESA - Frost amp Sullivan Report January 2014 (44 MB)bull Indian ESDM Disability Identification Study An IESA - Ernst amp Young Report January 2014 (24 MB)bull Communications Need Assessment Study for ESDM Sector 2013(419 MB)bull Promotion of Electronics IT Hardware Manufacturing(Annual Plan 2012-13) DeitY 2012 (23 KB)bull IT Industry Performance Annual Review for 2012-13 (751 MB)bull IT Industry Performance Annual Review for 2011-12 (241 MB) bull Recommendation on Telecom Equipment Manufacturing PolicyTRAI2011(9306 KB)bull Report of Taskforce to Suggest Measures to stimulate growth of IT ITES and Electronics Hardware Manufacturing Industry in IndiaDeitY2009 (4961 KB) Union Budget Provisionsbull Electronics Related Interventions in Budget 2014ndash2015 (74 KB)bull Electronics Related Interventions in Budget 2013ndash2014Electronics India B2B Platform
Transfer of Technology Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB) Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Electronics amp IT Industry Statistics Electronic System Design amp Manufacturing Software and Services Sector Industry Promotion Activities Schemes and Policies of Electronic Hardware export promotion schemes dpl elec Policies google Interim Extension Issued by Deity under CRS Details of approved (in-princliple) Greenfield EMCs FAQs in ESDM sector FAQs on various aspects related to Foreign Direct Investment in ESDM sector Notification under Baggage rules Application Formats for the MSME Scheme Policies FAQs Semiconductor Incentive Schemes Information Technology Investment Region (ITIR) Electronic Manufacturing Clusters(EMC) RampD and IP Development Promotion of Exports Tariff Structure Human Resource Development Standards e-waste Management Preference for Domestically Manufactured Electronic Goods(PMA) Product Specific Initiatives Electronics India B2B Platform ITA International Collaboration State Policies Industry Associations National Awards Scheme e-Newsletter amp Press Releases MSMEs Budget announcements 2014-15 Details of approved ( Final) Greenfield EMCs DeitY 2014 Details of approved ( Final) Greenfield EMCs DeitY 2014 Foreign Direct Investment(FDI)
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Transfer of Technology
Applied Materials (1 MB) C-DAC (1 MB) Coral Telecom (827 KB) Digital Radio Mondiale (DRM) (27 MB) EFY Exports (12 KB) EOS Power (51 KB) GMR (20 MB) Indic Electronics (65 KB) Infineon (268 KB) Interra Systems (288 KB) Interra Systems - Design Services Overviewpdf(16 MB) Kaynes Technology (279 KB) Linepro Controls (12 KB) Olympic Pharmacare (20 KB) SAMEER (385 MB) SGS Tekniks Manufacturing (142 KB) Srishti ESDM (747 KB) Suventure Services (46 KB) Synopsys (52 KB) TE Connectivity (657 KB) VNL Shyam (92 MB) Joint VentureTechnology Acquisition Accurex Biomedical (13 KB) Bhagyashree Industries (50 KB) BHEL (320 KB) Compucare (225 KB) OEN India (161 KB) Vetril Electronics (94 KB)
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Semiconductor devices are electronic components Semiconductor devices are electronic components that exploit the electronic
properties of semiconductor materials principally silicon germanium and gallium arsenide as well as organic semiconductors Semiconductor devices have replaced thermionic devices (vacuum tubes) in most applications They use electronic conduction in the solid state as opposed to the gaseous state or thermionic emission in a high vacuum
Semiconductor devices are manufactured both as single discrete devices and as integrated circuits (ICs) which consist of a numbermdashfrom a few (as low as two) to billionsmdashof devices manufactured and interconnected on a single semiconductor substrate or wafer
Semiconductor materials are useful because their behavior can be easily manipulated by the addition of impurities known as doping Semiconductor conductivity can be controlled by introduction of an electric or magnetic field by exposure to light or heat or by mechanical deformation of a doped monocrystalline grid thus semiconductors can make excellent sensors Current conduction in a semiconductor occurs via mobile or free electrons and holes collectively known as charge carriers Doping a semiconductor such as silicon with a small amount of impurity atoms such as phosphorus or boron greatly increases the number of free electrons or holes within the semiconductor When a doped semiconductor contains excess holes it is called p-type and when it contains excess free electrons it is known as n-type where p (positive for holes) or n (negative for electrons) is the sign of the charge of the majority mobile charge carriers The semiconductor material used in devices is doped under highly controlled conditions in a fabrication facility or fab to precisely control the location and concentration of p- and n-type dopants The junctions which form where n-type and p-type semiconductors join together are called pndashn junctions
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Laser- Light amplification by stimulated emission of radiation
A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation The term laser originated as an acronym for light amplification by stimulated emission of radiation A laser differs from other sources of light because it emits light coherently Spatial coherence allows a laser to be focused to a tight spot enabling applications like laser cutting and lithography Spatial coherence also allows a laser beam to stay narrow over long distances (collimation) enabling applications such as laser pointers
Lasers can also have high temporal coherence which allows them to have a very narrow spectrum ie they only emit a single color of light Temporal coherence can be used to produce pulses of lightmdashas short as a femtosecond
Lasers have many important applications They are used in common consumer devices such as optical disk drives laser printers and barcode scanners Lasers are used for both fiber-optic and free-space optical communication They are used in medicine for laser surgery and various skin treatments and in industry for cutting and welding materials They are used in military and law enforcement devices for marking targets and measuring range and speed
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Team Work and resource commitment leads to success All departmentsNGOrsquos have wonderful people
great policies experts ndashKey lies in determining strengths of different teams analyze competition and monitoring results visualize the future focussed implementation
Organization should grow20 per year as there is 10 inflation in India
Syllabus should be designed considering job descriptions in Electronics ManufacturingTestingQCMaintenance so that IETE students gets proper jobs easily
Human Ego should not come in the way of an organizationrsquos development
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur
Conclusions
1 Multidisciplinary Engineering Disciplines are used in EnggElectronic Companies
2Theory plus Practice as recommended by former PM Rajeev Gandhi at IIT Delhi
3Learning by Doing as Dr Udai Pareekrsquos research indicated is best way of teachinglearning
4Students need jobs and work to pay off their loansEMIrsquos
6Mugging and Cramming are the worst ways of learning-IBM
Thank you-Sanjeev Bahadur