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Department of Electrical and Electronics Engineering Course Handout SEMESTER VI EEE DEPARTMENT OF ELECTRICAL AND ELECTRONICS ENGINEERING
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SEMESTER VI EEE - rajagiritech.ac.in

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Page 1: SEMESTER VI EEE - rajagiritech.ac.in

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Course Handout

SEMESTER VI EEE

DEPARTMENT OF ELECTRICAL AND

ELECTRONICS ENGINEERING

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RSET VISION

To evolve into a premier technological and research institution,

moulding eminent professionals with creative minds, innovative ideas

and sound practical skill, and to shape a future where technology works

for the enrichment of mankind.

RSET MISSION

To impart state-of-the-art knowledge to individuals in various

technological disciplines and to inculcate in them a high degree of social

consciousness and human values, thereby enabling them to face the

challenges of life with courage and conviction.

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DEPARTMENT VISION

To excel in Electrical and Electronics Engineering education with focus on

research to make professionals with creative minds, innovative ideas and

practical skills for the betterment of mankind.

DEPARTMENT MISSION

To develop and disseminate among the individuals, the theoretical

foundation, practical aspects in the field of Electrical and Electronics

Engineering and inculcate a high degree of professional and social ethics for

creating successful engineers.

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PROGRAMME EDUCATIONAL OBJECTIVES

PEO I: To provide Graduates with a solid foundation in mathematical,

scientific and engineering fundamentals and depth and breadth studies in

Electrical and Electronics engineering, so as to comprehend, analyse, design,

provide solutions for practical issues in engineering.

PEO II: To strive for Graduates achievement and success in the profession or

higher studies, which they may pursue.

PEO III: To inculcate in Graduates professional and ethical attitude, effective

communication skills, teamwork skills, multidisciplinary approach, the life-

long learning needs and an ability to relate engineering issues for a successful

professional career.

PROGRAMME OUTCOMES

a. Students will be able to apply the knowledge of mathematics, science, engineering fundamentals and Electrical and Electronics Engineering for solving complex engineering problems. b. Students will be able to design and conduct experiments, analyze and interpret data in the field of Electrical and Electronics Engineering. c. Students will be able to design Electrical systems, components or process to meet desired needs within realistic constraints such as public health and safety, economic, environmental and societal considerations. d. Students will be able to visualize and work individually as well as in multidisciplinary teams to accomplish a common goal.

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e. Students will demonstrate an ability to identify, formulate and solve Electrical and Electronics Engineering problems. f. Students will be able to acquire and practice the knowledge of professional and ethical responsibilities. g. Students will be able to communicate effectively with a range of audience in the society. h. Students will acquire the broad education necessary to understand the impact of engineering solutions on individuals, organizations and society. i. Students will be able to acquire new knowledge in the Electrical Engineering discipline and to engage in lifelong learning. j. Students shall acquire knowledge of contemporary issues in Electrical Engineering. k. Student will be able to use the skills in modern Electrical engineering tools, softwares and equipment to analyze and model complex engineering activities. l. Student will be able to acquire the knowledge in management principles to estimate the requirements and manage projects in multidisciplinary environments.

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INDEX

1 SEMESTER PLAN

2 ASSIGNMENT SCHEDULE 3 SCHEME 4 EE 010 601 POWER GENERATION AND DISTRIBUTION 4.1 : Course Information Sheet

4.2 : Course Plan 5 EE 010 602 INDUCTION MACHINES 5.1 : Course Information Sheet

5.2 : Course Plan 6 EE 010 603 CONTROL SYSTEM 6.1 : Course Information Sheet

6.2 : Course Plan 7 EE 010 604 DIGITAL SIGNAL PROCESSING 7.1 : Course Information Sheet

7.2 : Course Plan 8 EE 010 605 MICRO CONTROLLER AND EMBEDDED

SYSTEMS 7.1 : Course Information Sheet

7.2 : Course Plan 9 EE 010 606 RENEWABLE ENERGY RESOURCES 9.1 : Course Information Sheet

9.2 : Course Plan 10 EE 010 607 POWER ELECTRONICS LAB

10.1 : Course Information Sheet 10.2 : Course Plan

11 EE 010 608 MICRO PROCESSOR AND

MICROCONTROLLER LAB 11.1 : Course Information Sheet

11.2 : Course Plan

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SEMESTER PLAN

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ASSIGNMENT SCHEDULE

Week 6 EE 010 604 DIGITAL SIGNAL PROCESSING

Week 7 EE 010 605 MICROPROCESSOR AND EMBEDDED SYSTEMS

Week 7 EE 010 606 RENEWABLE ENERGY RESOURCES

Week 8 EE 010 601 POWER GENERATION AND DISTRIBUTION

Week 8 EE 010 602 INDUCTION MACHINES

Week 10 EE 010 603 CONTROL SYSTEM

Week 11 EE 010 604 DIGITAL SIGNAL PROCESSING

Week 11 EE 010 605 MICROPROCESSOR AND EMBEDDED SYSTEMS

Week 12 EE 010 606 RENEWABLE ENERGY RESOURCES

Week 12 EE 010 604 DIGITAL SIGNAL PROCESSING

Week 13 EE 010 605 MICROPROCESSOR AND EMBEDDED SYSTEMS

Week 13 EE 010 606 RENEWABLE ENERGY RESOURCES

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SCHEME

SCHEME

CODE

SUBJECT

HOURS/WEEK

MARKS

END

SEMESTER

DURATION

CREDITS

L T P/D INTERNAL EXTERNAL

EN 010 601 POWER GENERATION AND DISTRIBUTION

2 2 50 100 3 4

EE 010 602 INDUCTION MACHINES

3 1 50 100 3 4

EE 010 603 CONTROL SYSTEMS 2 2 50 100 3 4

EE 010 604 DIGITAL SIGNAL PROCESSING

3 1 50 100 3 4

EE 010 605 MICROCONTROLLERS AND EMBEDDED SYSTEM

2 2 50 100 3 4

EE 010 606 ELECTIVE I 2 2 50 100 3 4

EE 010 607 POWER ELECTRONICS LAB

3 50 100 3 2

EE 010 608 MICROPROCESSOR AND MICROCONTROLLER LAB

3 50 100 3 2

TOTAL 15 9 6 28

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COURSE INFORMATION SHEET

PROGRAMME: DEGREE: BTECH

COURSE:POWER GENERATION AND

DISTRIBUTION

SEMESTER: S6 CREDITS: 4

COURSE CODE: EN010 601 REGULATION:UG

COURSE TYPE: CORE /ELECTIVE

/ BREADTH/ S&H

COURSE

AREA/DOMAIN:ELECTRICAL POWER

CONTACT HOURS: 4+1(Tutorial)

hours/Week.

CORRESPONDING LAB COURSE

CODE (IF ANY):NIL

LAB COURSE NAME:NIL

SYLLABUS:

UNIT DETAILS HOURS

I STEAM POWER PLANTS: RANKINE CYCLE (IDEAL, ACTUAL

AND REHEAT) – LAYOUT – COMPONENTS –ALTERNATORS

– EXCITATION SYSTEM – GOVERNING SYSTEM. HYDROELECTRIC POWER PLANTS: SELECTION OF SITE –

MASS CURVE – FLOW DURATION CURVE –HYDROGRAPH –

CLASSIFICATION OF HYDRO PLANTS – LAYOUT –

COMPONENTS – CLASSIFICATION OF HYDRO TURBINES. NUCLEAR POWER PLANTS: LAYOUT – COMPONENTS –

PRESSURIZED WATER REACTOR – BOILING WATER

REACTOR – HEAVY WATER REACTOR – GAS COOLED

REACTOR – FAST BREEDER REACTOR. GAS POWER PLANTS: GAS TURBINE CYCLE – LAYOUT –

OPEN CYCLE, CLOSED CYCLE AND COMBINED CYCLE GAS

POWER PLANTS. DIESEL POWER PLANTS: THERMAL CYCLE – DIESEL

PLANT EQUIPMENT.

12

II ECONOMIC ASPECTS: LOAD CURVE – LOAD DURATION

CURVE – ENERGY LOAD CURVE – MAXIMUM DEMAND –

DEMAND FACTOR – DIVERSITY FACTOR – COINCIDENCE

FACTOR – CONTRIBUTION FACTOR – LOAD FACTOR –

PLANT CAPACITY FACTOR – PLANT USE FACTOR –

UTILIZATION FACTOR – POWER FACTOR AND ECONOMICS

8

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OF POWER FACTOR CORRECTION. TARIFFS: FLAT RATE TARIFF – TWO PART TARIFF –

BLOCK RATE TARIFF – MAXIMUM DEMAND TARIFF –

POWER FACTOR TARIFF.

III DISTRIBUTION FEEDERS: PRIMARY AND SECONDARY

DISTRIBUTION – FEEDER LOADING – VOLTAGE DROP IN

FEEDER LINES WITH DIFFERENT LOADINGS – RING AND

RADIAL DISTRIBUTION – TRANSFORMER APPLICATION

FACTOR – DESIGN CONSIDERATIONS OF DISTRIBUTION

FEEDER – KELVIN’S LAW.

10

IV VOLTAGE DROP IN DC 2 WIRE SYSTEM, DC 3 WIRE

SYSTEM, AC SINGLE PHASE 2 WIRE SYSTEM, AC THREE

PHASE 3 WIRE AND 4 WIRE SYSTEMS – VOLTAGE DROP

COMPUTATION BASED ON LOAD DENSITY – VOLTAGE

DROP WITH UNDERGROUND CABLE SYSTEM – POWER

LOSS ESTIMATION IN DISTRIBUTION SYSTEMS –POWER

FACTOR IMPROVEMENT USING CAPACITORS – SUB

HARMONIC OSCILLATIONS AND FERRO RESONANCE DUE

TO CAPACITOR BANKS – OPTIMUM POWER FACTOR FOR

DISTRIBUTION SYSTEMS.

15

V ENERGY MANAGEMENT & AUDITING: THE NEED FOR

ENERGY MANAGEMENT. – DEMAND SIDE ENERGY

MANAGEMENT – AUDITING THE USE OF ENERGY – TYPES

OF ENERGY AUDIT – ELECTRICAL LOAD MANAGEMENT

AND MAXIMUM DEMAND CONTROL – DISTRIBUTION AND

TRANSFORMER LOSSES – ENERGY SAVINGS IN MOTORS

AND LIGHTING SYSTEMS.

15

TOTAL HOURS 60

TEXT/REFERENCE BOOKS:

T/R BOOK TITLE/AUTHORS/PUBLICATION

1 D P KOTHARI AND I J NAGRATH , POWER SYSTEM ENGINEERING:, TATA MCGRAW HILL

2 S N SINGH, ELECTRIC POWER GENERATION, TRANSMISSION AND DISTRIBUTION, PHI REFERENCE BOOKS

3 V KAMARAJU, ELECTRICAL POWER DISTRIBUTION SYSTEMS, TATA MCGRAW HILL

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4 M V DESHPANDE, ELEMENTS OF ELECTRICAL POWER STATION DESIGN, PHI

5 A CHAKRABARTHI, M L SONY, P V GUPTA, U S BHATNAGAR, A TEXT BOOK ON POWER SYSTEM ENGG. , DHANPAT RAI & CO.

6 LUCAS M. FAULKENBERRY, WALTER COFFER, ELECTRICAL POWER DISTRIBUTION AND TRANSMISSION, PEARSON EDUCATION.

7 P.S. PABLA, ELECTRIC POWER DISTRIBUTION, TATA MCGRAW HILL

8 D P KOTHARI AND I J NAGRATH , POWER SYSTEM ENGINEERING:, TATA MCGRAW HILL

COURSE PRE-REQUISITES:

C.CODE COURSE NAME DESCRIPTION SEM EN 010 108

BASIC ELECTRICAL ENGINEERING

BASIC ELECTRICAL COMPONENTS AND WORKING

I

EE 010 603 INDUCTION MACHINES FOR GETTING IDEA ABOUT GENERATOR

VI

EE 010 303 ELECTRICAL CIRCUIT THEORY FOR THE POWER CIRCUIT ANALYSIS III EN 010 102

ENGINEERING PHYSICS FOR GETTING AN INTRODUCTION ABOUT POWER PLANTS INCLUDING NUCLEAR ENERGY

I

EN 010 107

BASIC MECHANICAL ENGINEERING

FOR GETTING AN INTRODUCTION ABOUT POWER PLANTS INCLUDING DIESEL ENGINE.

I

COURSE OBJECTIVES:

1 TO IMPART INTRODUCTORY KNOWLEDGE OF POWER SYSTEM.

2 TO DEVELOP UNDERSTANDING OF POWER GENERATION SYSTEM AND

POWER DISTRIBUTION SYSTEM.

COURSE OUTCOMES:

SNO DESCRIPTION PO

MAPPING

1 GAIN KNOWLEDGE ON DIFFERENT TYPES OF ELECTRICAL POWER PLANTS

C, E, I, J

2 GAIN KNOWLEDGE OF THE ECONOMIC ASPECTS OF POWER PLANT AND THE CALCULATION OF ELECTRICAL ENERGY TARIFF

A, E

3 GAIN KNOWLEDGE OF DIFFERENT TYPES OF ELECTRICAL POWER DISTRIBUTION SYSTEM

C, J

4 GAIN THE KNOWLEDGE OF THE ANALYSIS OF ELECTRICAL POWER DISTRIBUTION SYSTEM

A, C, J

5 GAIN THE KNOWLEDGE IN ENERGY AUDITING AND ENERGY MANAGEMENT

A, B, C, E, I, J

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GAPS IN THE SYLLABUS - TO MEET INDUSTRY/PROFESSION

REQUIREMENTS:

SNO DESCRIPTION PROPOSED

ACTIONS

1 FOR EFFECTIVE LEARNING OF PRACTICAL OPERATION OF THE GENERATING STATIONS ( DIESEL ,THERMAL ,HYDROELECTRIC POWER PLANTS)

INDUSTRIAL VISIT

2 METHODS OF DETERMINING DEPRECIATION – STRAIGHT LINE METHOD –DIMINISHING VALUE METHOD-SINKING FUND METHOD

ADDITIONAL CLASS

3 IMPORTANCE OF HIGH LOAD FACTOR. ADDITIONAL CLASS

4 GENERAL AWARENESS ABOUT THE PRESENT SCENARIO IN THE STATE.

ADDITIONAL CLASS

PROPOSED ACTIONS: TOPICS BEYOND

SYLLABUS/ASSIGNMENT/INDUSTRY VISIT/GUEST LECTURER/NPTEL

ETC

TOPICS BEYOND SYLLABUS/ADVANCED TOPICS/DESIGN:

1 CALCULATION COST OF ELECTRICAL ENERGY, EXPRESSION FOR COST

ELECTRICAL ENERGY 2 METHODS OF DETERMINING DEPRECIATION – STRAIGHT LINE METHOD

–DIMINISHING VALUE METHOD-SINKING FUND METHOD – TUTORIALS.

WEB SOURCE REFERENCES:

1. KSEB PROFILE, KSEB [ONLINE]

AVAILABLE:HTTP://WWW.KSEB.IN/~KSEBUSER/INDEX.PHP?OPTION=COM_C

ONTENT&VIEW=ARTICLE&ID=58&ITEMID=34 (ACCESSED ON 15TH JAN

2013)

DELIVERY/INSTRUCTIONAL METHODOLOGIES:

☐ CHALK & ☐ STUD. ☐ WEB

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TALK ASSIGNMENT RESOURCES

☐ LCD/SMART

BOARDS

☐ STUD.

SEMINARS

☐ ADD-ON

COURSES

ASSESSMENT METHODOLOGIES-DIRECT

ASSIGNMENTS

☐ STUD.

SEMINARS

TESTS/MODEL

EXAMS

☐ UNIV.

EXAMINATION

☐ STUD. LAB

PRACTICES

☐ STUD. VIVA ☐ MINI/MAJOR

PROJECTS

CERTIFICATIONS

☐ ADD-ON

COURSES

☐ OTHERS

ASSESSMENT METHODOLOGIES-INDIRECT

☐ ASSESSMENT OF COURSE

OUTCOMES (BY FEEDBACK, ONCE)

☐ STUDENT FEEDBACK ON

FACULTY (TWICE)

☐ ASSESSMENT OF MINI/MAJOR

PROJECTS BY EXT. EXPERTS

☐ OTHERS

Prepared by Approved by

MR.THOMAS K P MS.JAYASRI R NAIR

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Course Plan

Lecture Module Plan Day 1 1 Introduction to Power Generation and

Distribution Day 2 1 Introduction to Steam Power Plants - Rankine

cycle -Ideal ,actual and heat Day 3 1 Tutorial on Rankine Cycle and Steam Power

plant efficiency Day 4 1 Steam Power Plant Layout -Components -

Alternator -Excitation System - Governing System

Day 5 1 Introduction to Hydro Electric Power plants -Site Selection - Mass Curve - Flow duration curve -Hydro graph

Day 6 1 Hydroelectric Power Plants -Layout - Components - Classification of Hydro Turbines

Day 7 1 Introduction to Nuclear Power Plants -Layout -Components

Day 8 1 Tutorials on Hydroelectric power plant

Day 9 1 Nuclear Power Plants - Pressurized water reactor - Boiling water reactor - Heavy water reactor - Gas cooled reactor - Fast breeder reactor

Day 10 1 Introduction to Gas Power Plants - Gas Turbine Cycle - Layout

Day 11 1 open Cycle ,Closed Cycle and Combined cycle of Gas Power Plants

Day 12 1 Tutorial on Power plants Day 13 1 Introduction to Diesl Power Plants and Tutorial

on Power plants Day 14 1 Thermal Cycle Day 15 1 Diesel Power Plants Equipments

Day 16 1 Introduction to Economic Electric Power Distribution

Day 17 2 Load Curve - Load Duration Curve Energy Load Curve

Day 18 2 Maximum Demand -Demand Factor and Tutorial Day 19 2 Diversity Factor Day 20 2 Coincidence Factor Day 21 2 Tutorial on Maximum demand ,Diversity factor

and Coincidence factor Day 22 2 Contribution Factor -Load Factor and Tutorial on

Maximum demand ,Diversity factor and Coincidence factor

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Day 23 2 Plant Capacity Factor -Plant Use Factor

Day 24 2 Utilization Factor Day 25 2 Power Factor and Economics of Power Factor

Correction Day 26 2 Tutorial on plant capacity factor ,Plant use factor

,utilization factor Day 27 2 Tariff - Flat Rate Tariff -Two Part Tariff and

Tutorial on Tariff - Flat Rate Tariff -Two Part Tariff

Day 28 2 Block Rate Tariff - Maximum Demand tariff -Power factor tariff

Day 29 3 Introduction to Distribution Feeders Day 30 3 Primary and Secondary Distribution Day 31 3 Tutorial on Primary and Secondary Distribution Day 32 3 Feeder Loading and Tutorial on Fedder loading

and Primary and Secondary Distribution Day 33 3 Voltage drop in feeder lines with different

loading Day 34 3 Voltage drop in feeder lines with different

loading Day 35 3 Ring and Radial Distribution Day 36 3 Ring and Radial Distribution Day 37 3 Tutorial on Ring and Radial Distribution Day 38 3 Transformer Application Factor and Tutorial Day 39 3 Design Consideration of Distribution Feeder -

Kelvin's law Day 40 3 Design Consideration of Distribution Feeder -

Kelvin's law Day 41 3 Tutorial on Design Consideration of Distribution

Feeder - Kelvin's law Day 42 4 Introduction Voltage Drop in Dc 2 wire system

,DC 3 wire system Day 43 4 Voltage Drop in Dc 2 wire system ,DC 3 wire

system and tutorial Day 44 4 Voltage drop in AC single phase 2 wire system

,AC three phase 3 wire and 4 wire system Day 45 4 voltage drop computation based on load density Day 46 4 voltage drop with underground cable system Day 47 4 Tutorial on voltage drop computation based on

load density and underground cable system Day 48 4 Power loss estimation in distribution system and

tutorial Day 49 4 Power factor improvement using capacitors Day 50 4 Sub Harmonic oscillations due to capacitor

banks

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Day 51 4 Tutorial on Power factor improvement using capacitors

Day 52 4 Ferro resonance due to capacitor banks and tutorial

Day 53 4 Optimum power factor for distribution systems Day 54 5 Introduction to Energy Management and Audit -

The need for energy management Day 55 5 Demand side Energy Management Day 56 5 Tutorial on Demand side Energy Management Day 57 5 Auditing the use of energy and Tutorial Day 58 5 Types of Energy Audit Day 59 5 Electrical load management Day 60 5 maximum demand control Day 61 5 Tutorial on maximum demand control Day 62 5 Distribution and Transformer losses and tutorial Day 63 5 Energy savings in motors and lighting system Day 64 5 Tutorial on Energy savings in motors and

lighting system

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COURSE INFORMATION SHEET PROGRAMME: ELECTRICAL AND

ELECTRONICS ENGINEERING

DEGREE: BTECH

COURSE: INDUCTION MACHINES SEMESTER: 6 CREDITS: 4

COURSE CODE: EN 010 602

REGULATION: UG

COURSE TYPE: CORE

COURSE AREA/DOMAIN:

ELECTRICAL MACHINES

CONTACT HOURS: 3+1 (Tutorial)

Hours/Week.

CORRESPONDING LAB COURSE

CODE (IF ANY):EE 010 806

LAB COURSE NAME: ELECTRICAL

MACHINES LAB II

SYLLABUS:

UNIT DETAILS HOURS

I THREE PHASE INDUCTION MOTOR: CONSTRUCTION-

SQUIRREL CAGE AND SLIP RING MOTORS-PRINCIPLE OF

OPERATION-SLIP AND FREQUENCY OF ROTOR CURRENT-

MECHANICAL POWER - DEVELOPED TORQUE- PHASOR

DIAGRAM-TORQUE-SLIP CURVE-PULL OUT TORQUE-

LOSSES AND EFFICIENCY.

NO LOAD AND LOCKED ROTOR TESTS-EQUIVALENT

CIRCUIT-PERFORMANCE CALCULATION FROM

EQUIVALENT CIRCUIT-CIRCLE DIAGRAM-OPERATING

CHARACTERISTICS FROM CIRCLE DIAGRAM-COGGING AND

CRAWLING AND METHODS OF ELIMINATION.

16

II STARTING OF THREE PHASE SQUIRREL CAGE INDUCTION

MOTOR-DIRECT ON LINE STARTING-AUTO TRANSFORMER

STAR DELTA STARTING- STARTING OF SLIP RING MOTORS-

DESIGN OF ROTOR RHEOSTAT-VARIATION OF STARTING

TORQUE WITH ROTOR RESISTANCE.

14

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SPEED CONTROL-POLE CHANGING-ROTOR RESISTANCE

CONTROL-FREQUENCY CONTROL-STATIC FREQUENCY

CONVERSION-DEEP BAR AND DOUBLE CAGE INDUCTION

MOTOR –EQUIVALENT CIRCUIT -APPLICATIONS OF

INDUCTION MACHINES-SINGLE PHASING-ANALYSIS USING

SYMMETRICAL COMPONENTS.

III INDUCTION GENERATOR: THEORY- PHASOR DIAGRAM-

EQUIVALENT CIRCUIT-SYNCHRONOUS INDUCTION

MOTOR-CONSTRUCTION-ROTOR WINDING CONNECTIONS-

PULLING INTO STEP

SINGLE PHASE INDUCTION MOTOR: REVOLVING FIELD

THEORY- EQUIVALENT CIRCUIT- TORQUE-SLIP CURVE

STARTING

METHODS-SPLIT PHASE, CAPACITOR START-CAPACITOR

RUN AND SHADED POLE MOTORS.

10

IV COMMUTATOR MOTORS-PRINCIPLE AND THEORY-EMF

INDUCED IN A COMMUTATOR WINDING- SINGLE PHASE

SERIES MOTOR :THEORY –PHASOR DIAGRAM-

COMPENSATION AND INTERPOLE WINDING-UNIVERSAL

MOTOR-REPULSION MOTOR: TORQUE PRODUCTION –

PHASOR DIAGRAM-COMPENSATED TYPE OF

MOTORSREPULSION START AND REPULSION RUN

INDUCTION MOTOR-APPLICATIONS-RELUCTANCE

MOTOR-HYSTERISIS MOTOR.

10

V CONSTRUCTION-PRINCIPLE OF OPERATION, OPERATING

CHARACTERISTICS OF STEPPER MOTOR, SWITCHED

RELUCTANCE MOTOR, BLDC MOTOR, PERMANENT

MAGNET SYNCHRONOUS MOTOR, LINEAR INDUCTION

10

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MOTOR-PRINCIPLE-APPLICATION-MAGNETIC LEVITATION

TOTAL HOURS 60

TEXT/REFERENCE BOOKS:

T/R BOOK TITLE/AUTHORS/PUBLICATION

R1 ALEXANDER LANGSDORF A S, THEORY OF AC

MACHINERY, TATA MCGRAW-HILL

R2 DR. P S BIMBHRA, ELECTRICAL MACHINERY, KHANNA

PUBLISHERS

R3 SAY M G, PERFORMANCE AND DESIGN OF AC MACHINES,

ELBS

R4 J B GUPTA, ELECTRICAL MACHINES , S K KATARIA AND

SON

R5

NAGARATH I J AND KOTHARI D P, ELECTRICAL

MACHINES ,4E, TATA MCGRAW- HILL EDUCATION, NEW

DELHI, 2010

R6 VINCENT DELTORO, ELECTRICAL MACHINES AND

POWER SYSTEM, PRENTICE HALL

R7 VENKETARATNAM, SPECIAL ELECTRICAL MACHINES,

UNIVERSAL PRESS

R8 ALEXANDER LANGSDORF A S, THEORY OF AC

MACHINERY, TATA MCGRAW-HILL

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COURSE PRE-REQUISITES:

C.CODE COURSE NAME DESCRIPTION SEM

EE 010

108

BASIC ELECTRICAL

ENGINEERING

BASIC IDEA ON

ELECTROMECHANICAL

ENERGY CONVERSION AND

FUNDAMENTAL CONCEPTS OF

AC.

1 &

2

EE 010

402

DC MACHINES AND

TRANSFORMERS

KNOWLEDGE ABOUT

CONSTRUCTION AND

WORKING PRINCIPLE OF DC

MACHINES AND

TRANSFORMERS.

4

COURSE OBJECTIVES:

1

TO IMPART CONCEPTS ABOUT CONSTRUCTION, WORKING

PRINCIPLE AND PERFORMANCE STUDIES OF INDUCTION

MACHINES.

2

TO IMPART KNOWLEDGE ABOUT CONSTRUCTION, WORKING

PRINCIPLE AND PERFORMANCE STUDIES OF COMMUTATOR

MOTORS.

COURSE OUTCOMES:

SNO DESCRIPTION PO

MAPPING

1

ABILITY TO ANALYSE THE PERFORMANCE

OF INDUCTION MACHINES INORDER TO

IMPLEMENT IN HOUSEHOLD AND

A,B,E,I,H,J

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22

INDUSTRIAL APPLICATIONS.

2

DESIGN AND DEVELOP EFFICIENT SPEED

CONTROL METHODS OF INDUCTION MOTOR

USING POWER ELECTRONICS.

A,B,C,D,I,K

3

WILL ACQUIRE KNOWLEDGE ON

PERFORMANCE CHARACTERISTICS OF

SYNCHRONOUS INDUCTION MOTORS

COMBINING THE FEATURES OF

SYNCHRONOUS MACHINES AND INDUCTION

MACHINES.

A,B.I

4

ABILITY TO DEVELOP IDEA ON DIFFERENT

TYPES OF COMMUTATOR MACHINES AND

ITS APPLICATIONS

A,B.I

5

ABILITY TO DEVELOP KNOWLEDGE IN THE

AREA OF SPECIAL MACHINES REPLACING

THE DC MACHINES AND INDUCTION

MACHINES IN MANY APPLICATIONS.

A,B,C,E,I,F,J,K

GAPS IN THE SYLLABUS - TO MEET INDUSTRY/PROFESSION

REQUIREMENTS:

SNO DESCRIPTION PROPOSED

ACTIONS

1

LACK OF SIMULATIONS ON MACHINE

DRIVES

CAN INCLUDE

SIMULATION

TOOLS LIKE

MATLAB/SIMULINK

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PROPOSED ACTIONS: TOPICS BEYOND

SYLLABUS/ASSIGNMENT/INDUSTRY VISIT/GUEST LECTURER/NPTEL

ETC

TOPICS BEYOND SYLLABUS/ADVANCED TOPICS/DESIGN:

1 CIRCLE DIAGRAM OF SYNCHRONOUS INDUCTION

MACHINES

WEB SOURCE REFERENCES:

1 MUHAMMAD H. RASHID(2001), POWER ELECTRONICS HANDBOOK, ACADEMIC PRESS .

2 RESTON CONDIT,(2004).,MICROCHIP TECHNOLOGY INC [ONLINE]. AVAILABLE: HTTP://WWW.MICROCHIP.COM

DELIVERY/INSTRUCTIONAL METHODOLOGIES:

☐ CHALK &

TALK

☐ STUD.

ASSIGNMENT

☐ WEB

RESOURCES

☐LCD/SMART

BOARDS

☐ STUD.

SEMINARS

☐ ADD-ON

COURSES

ASSESSMENT METHODOLOGIES-DIRECT

ASSIGNMENTS

☐ STUD.

SEMINARS

TESTS/MODEL

EXAMS

☐ UNIV.

EXAMINATION

☐ STUD. LAB

PRACTICES

☐ STUD. VIVA ☐ MINI/MAJOR

PROJECTS

CERTIFICATIONS

☐ ADD-ON

COURSES

☐ OTHERS

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24

ASSESSMENT METHODOLOGIES-INDIRECT

☐ ASSESSMENT OF COURSE

OUTCOMES (BY FEEDBACK, ONCE)

☐ STUDENT FEEDBACK ON

FACULTY (TWICE)

☐ ASSESSMENT OF MINI/MAJOR

PROJECTS BY EXT. EXPERTS

☐ OTHERS

Prepared by Approved by

MS.CAROLINE ANN SAM MS.JAYASRI R NAIR

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Course Plan

Lecture Module Plan Day 1 1 Intoduction Day 2 1 Construction,squirrel cage and slip ring IM Day 3 1 principle of operation Day 4 1 slip and frequency of rotor current

Day 5 1 mechanical power ,developed torque Day 6 1 Problems on slip and frequency of rotor current

Day 7 1 torque slip curve Day 8 1 Losses and efficiency Day 9 1 Problems on mechanical power ,developed

torque ,Losses and efficiency Day 10 1 PhasorDiagram,Equivalent circuit Day 11 1 No load test,Stator resistance test,Blocked rotor

test Day 12 1 Circle Diagram Day 13 1 Circle Diagram

Day 14 1 Circle Diagram Day 15 1 Cogging, Crawling and their elimination

Day 16 1 Problems on equivalent circuit Day 17 2 Starting of IM,DOL Day 18 2 Stator Resistance starting Day 19 2 Problems on circle diagram Day 20 2 Autotransformer starting Day 21 2 star Delta starting, Problems

Day 22 2 Starting of slip ring IM-design of rotor resistance Day 23 2 Tutorials on starting methods Day 24 2 Variation of starting torque with rotor resistance Day 25 2 Speed control -changing supply frequency Day 26 2 Speed control -changing applied voltage Day 27 2 Speed control-changing number of poles Day 28 2 Speed control-changing number of poles Day 29 2 Speed control-changing rotor circuit resistance,

Problems Day 30 2 Speed control-cascade operation Day 31 2 Tutorials on speed control methods Day 32 2 Single phasing Day 33 2 Deep bar and double cage Induction motor-

equivalent circuit Day 34 3 Induction generator-Theory-Phasor Diagram Day 35 3 Induction generator-Equivalent circuit Day 36 3 Synchronous Induction Motor-Construction-

Rotor winding connection-Pulling into steps

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Day 37 3 Synchronous Induction Motor-Circle Diagram

Day 38 3 Single phase IM-Revolving Field theory Day 39 3 Torque slip curve Day 40 3 Starting methods-split phase Day 41 3 Capacitor start Induction Motor Day 42 3 capacitor run induction motor Day 43 3 shaded pole type motors Day 44 3 Problems on Single Phase Induction motor Day 45 3 Problems on Single Phase Induction motor Day 46 4 Commutator motors-principle and theory Day 47 4 EMF induced in a commutator winding-

Problems Day 48 4 Single phase series motor-Theory ,phasor

diagram Day 49 4 Tutorials on commutator motor Day 50 4 Repulsion Motor-torque production ,phasor

diagram-compesated type of motors Day 51 4 Repulsion start and repulsion run IM-

Applications Day 52 4 Reluctance motor Day 53 4 Hysterisis motor Day 54 4 Tutorials on Repulsion motor Day 55 5 Stepper motor-Construction-Principle of

Operation Day 56 5 Open loop control Day 57 5 Open loop control Day 58 5 Construction-Switched Reluctance Motor Day 59 5 working principle, applications-Switched

Reluctance Motor Day 60 5 Tutorial on stepper motor Day 61 5 Tutorial on Switched Reluctance Motor Day 62 5 construction, working principle-BLDC motor Day 63 5 BLDC motor Day 64 5 construction, working principle-Permanent

magnet Synchronous motor Day 65 5 control of Permanent magnet Synchronous

motor drive Day 66 5 Construction-Linear induction motor Day 67 5 Linear Induction Motor-Principle -Application Day 68 5 Magnetic Levitation Day 69 5 Revision

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27

COURSE INFORMATION SHEET

PROGRAMME: Electrical &

Electronics Engineering

DEGREE: BTECH

COURSE: CONTROL SYSTEMS SEMESTER: VI CREDITS: 4

COURSE CODE: EE010 603

REGULATION: UG

COURSE TYPE: CORE

COURSE AREA/DOMAIN: Electrical

and Electronics Engineering

CONTACT HOURS: 3+1 (Tutorial)

hours/Week.

CORRESPONDING LAB COURSE

CODE (IF ANY): EE 010 708

LAB COURSE NAME: CONTROL

AND SIMULATION LAB

SYLLABUS:

UNIT DETAILS HOURS

I

CONTROL SYSTEM COMPONENTS – SYNCHROS, D.C

SERVO MOTOR, A.C SERVO MOTOR, STEPPER

MOTOR,TACHO GENERATOR, GYROSCOPE.

FREQUENCY DOMAIN ANALYSIS-. BODE PLOTS, RELATIVE

STABILITY – GAIN MARGIN AND PHASE MARGIN.

CORRELATION BETWEEN TIME AND FREQUENCY DOMAIN

SPECIFICATIONS. STATIC POSITION ERROR COEFFICIENT

AND STATIC VELOCITY ERROR COEFFICIENT FROM BODE

PLOT. GAIN ADJUSTMENT IN BODE PLOT.ANALYSIS OF

SYSTEMS WITH TRANSPORTATION LAG.

12

II POLAR PLOTS-PHASE MARGIN AND GAIN MARGIN AND

STABILITY FROM POLAR PLOT, CORRELATION BETWEEN

PHASE MARGIN AND DAMPING RATIO. MINIMUM PHASE

12

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28

AND NON-MINIMUM PHASE SYSTEMS. LOG MAGNITUDE

VERSUS PHASE PLOTS.

NYQUIST PLOT – PRINCIPLE OF ARGUMENT , NYQUIST

STABILITY CRITERION, CONDITIONALLY STABLE SYSTEMS

III

RESPONSE OF SYSTEMS WITH P, PI AND PID

CONTROLLERS.

COMPENSATION TECHNIQUES – CASCADE

COMPENSATION AND FEED BACK DESIGN, LEAD, LAG AND

LAG-LEAD DESIGN USING BODE PLOTS AND ROOT LOCUS.

REALISATION OF COMPENSATORS USING

OPERATIONAL AMPLIFIERS.

12

IV

STATE VARIABLE FORMULATION-CONCEPT OF STATE

VARIABLE AND PHASE VARIABLE. STATE SPACE

REPRESENTATION OF MULTIVARIABLE SYSTEMS,

SIMILARITY TRANSFORMATION, INVARIANCE OF EIGEN

VALUES

UNDER SIMILARITY TRANSFORMATION. FORMATION OF

CONTROLLABLE CANONICAL FORM, OBSERVABLE

CANONICAL FORM. DIAGNALISATION, AND JORDAN

CANONICAL FORM FROM TRANSFER FUNCTION.

TRANSFER

FUNCTION FROM STATE MODEL.

12

V STATE MODEL OF DISCRETE TIME SYSTEMS. SOLUTION OF

STATE EQUATION – STATE TRANSITION MATRIX AND

12

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29

STATE TRANSITION EQUATION, COMPUTATION OF STM

BY CANONICAL TRANSFORMATION, LAPLACE TRANSFORM

AND CAYLEY- HAMILTON THEOREM. DISCRETIZATION OF

CONTINUOUS TIME SYSTEM.

TOTAL HOURS 60

TEXT/REFERENCE BOOKS:

T/R BOOK TITLE/AUTHORS/PUBLICATION

T.1 K.OGATTA, MODERN CONTROL ENGINEERING- PEARSON EDUCATION

T.2 I.J. NAGRATH AND M.GOPAL, CONTROL ENGINEERING, TMH

R.1 D.ROYCHOUDHARY, MODERN CONTROL ENGINEERING, PHI

R.2 RICHARD C. DORF AND ROBERT H. BISHOP, MODERN CONTROL

SYSTEMS, PEARSON EDUCATION

R.3 M.N. BANDYOPADHAY, CONTROL ENGINEERING-THEORY AND

PRACTICE, PHI,NEWDELHI,2009.

R.4 S. HASSAN SAEED, AUTOMATIC CONTROL SYSTEMS –KATSON BOOKS.

R.5 A. ANAND KUMAR, CONTROL SYSTEMS, PHI

R.6 FRANKLIN,POWELL, FEEDBACK CONTROL OF DYNAMIC SYSTEMS,

PEARSON.

R.7 K.OGATTA, MODERN CONTROL ENGINEERING- PEARSON EDUCATION

R.8 I.J. NAGRATH AND M.GOPAL, CONTROL ENGINEERING, TMH

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30

COURSE PRE-REQUISITES:

C.CODE COURSE NAME DESCRIPTION SEM

EE 010 403 LINEAR SYSTEM ANALYSIS CLASSIFICATION OF

SYSTEMS, BLOCK DIAGRAM

REPRESENTATION OF

SYSTEMS, TIME DOMAIN

ANALYSIS FOR LINEAR

SYSTEMS, ERROR ANALYSIS,

CONCEPT OF STABILITY,

NETWORK FUNCTIONS

IV

EN010301A ENGINEERING

MATHEMATICS II

Z TRANSFORMS IV

EN010 101 ENGINEERING

MATHEMATICS I

MATRIX , ORDINARY

DIFFERENTIAL EQUATIONS ,

LAPLACE TRANSFORMS

I&II

COURSE OBJECTIVES:

1 TO PROVIDE KNOWLEDGE IN THE FREQUENCY RESPONSE

ANALYSIS OF LINEAR TIME INVARIANT SYSTEMS

2 TO PROVIDE KNOWLEDGE IN THE DESIGN OF

CONTROLLERS AND COMPENSATORS.

COURSE OUTCOMES:

SI

NO

DESCRIPTION PO

MAPPING

1 STUDENTS WILL GET KNOWLEDGE ABOUT

THE DIFFERENT TYPES OF CONTROL SYSTEM

A,B,E,I,J

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31

COMPONENTS.

2 STUDENTS WILL GET KNOWLEDGE ABOUT

THE DIFFERENT TYPES OF POLAR PLOTS IN

CONTROL SYSTEM.

A,B,E

3 STUDENTS WILL GET KNOWLEDGE ABOUT P ,

PI AND PID CONTROLLERS AND THEY WILL

BE ABLE TO APPLY THE KNOWLEDGE IN

COMPENSATOR DESIGN.

A,B ,E,I,K

4 STUDENTS WILL GET KNOWLEDGE ABOUT

THE STATE VARIABLE REPRESENTATION IN

CONTROL SYSTEMS

A,B,E,K

5 STUDENTS WILL GET KNOWLEDGE ABOUT

THE STATE MODEL OF DISCRETE SYSTEM

A,B,E,K

GAPS IN THE SYLLABUS - TO MEET INDUSTRY/PROFESSION

REQUIREMENTS:

SNO DESCRIPTION PROPOSED

ACTIONS

1 PRACTICAL ASPECTS OF CONTROL

SYSTEM

INDUSTRY VISIT

/NPTEL

PROPOSED ACTIONS: TOPICS BEYOND

SYLLABUS/ASSIGNMENT/INDUSTRY VISIT/GUEST LECTURER/NPTEL

ETC.

TOPICS BEYOND SYLLABUS/ADVANCED TOPICS/DESIGN:

1 SOLUTION TO STATE VARIABLE REPRESENTATION

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32

WEB SOURCE REFERENCES:

1 NIL

DELIVERY/INSTRUCTIONAL METHODOLOGIES:

CHALK &

TALK

☐ STUD.

ASSIGNMENT

☐ WEB

RESOURCES

☐LCD/SMART

BOARDS

☐ STUD.

SEMINARS

☐ ADD-ON

COURSES

ASSESSMENT METHODOLOGIES-DIRECT

ASSIGNMENTS ☐ STUD.

SEMINARS

TESTS/MODEL

EXAMS

UNIV.

EXAMINATION

☐ STUD. LAB

PRACTICES

☐ STUD. VIVA ☐ MINI/MAJOR

PROJECTS

CERTIFICATIONS

☐ ADD-ON

COURSES

☐ OTHERS

ASSESSMENT METHODOLOGIES-INDIRECT

ASSESSMENT OF COURSE

OUTCOMES (BY FEEDBACK, ONCE)

STUDENT FEEDBACK ON

FACULTY (TWICE)

☐ ASSESSMENT OF MINI/MAJOR

PROJECTS BY EXT. EXPERTS

☐ OTHERS

Prepared by Approved by

PRAVEEN S BABU MS.JAYASRI R NAIR

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33

COURSE PLAN Lecture Module Plan

1 1 Introduction to Frequency domain analysis

2 1 Introduction to Frequency domain analysis

3 1 Frequency domain Analysis: Relation between frequency domain and time domain specifications

4 1 Bode plot: Introduction

5 1 Bode plot: Steps of construction

6 1 Tutorial-Bode plot

7 1 Tutorial

8 1 Tutorial

9 1 Static position error coefficient and static velocity error coefficient from bode plot.

10 1 Introduction to Frequency domain analysis

11 1 Tutorial

12 1 Analysis of system with transportation Lag

13 1 Construction of Bode Plot of systems with transportation Lag

14 1 Construction of Bode Plot of systems with transportation Lag

15 1 Introduction to Polar plots

16 1 Tutorial

17 1 Analysis of system with transportation Lag

18 2 Steps for Constructing Polar Plots and Construction of Polar plot

19 2 Phase margin and Gain margin and stability from polar plot

20 2 Correlation between phase margin and damping ratio.

21 2 Tutorials on Polar plot construction

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22 2 Tutorials on Polar plot construction

23 2 Tutorials on Polar plot construction

24 2 Minimum phase and non-minimum phase systems. Log magnitude versus phase plots-- Introduction

25 2 Nyquist stability criterion

26 2 Steps for Constructing Nyquist Plots and Construction of Nyquist plot

27 2 Tutorials on Nyquist plot construction

28 2 Tutorials on Nyquist plot construction

29 4 State variable formulation-concept of state variable and phase variable.

30 4 Similarity transformation, invariance of eigen values under similarity transformation

31 4 Formation of Controllable canonical form

32 4 Formation of Observable canonical form.

33 4 Diagnalisation, and Jordan canonical form from transfer function

34 4 Tutorials

35 4 Tutorials

36 5 State model of discrete time systems.

37 5 Solution of state equation, state transition matrix and state transition equation

38 5 Computation of STM by canonical transformation

39 5 Tutorial on State Transition matrix

40 5 Tutorial on State Transition matrix

41 5 Cayley- Hamilton theorem.

42 5 Tutorial

43 5 Tutorial

44 3 Need of Compensator

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45 3 Design of Lag Compensator

46 3 Realization of Lag compensators by passive components, derivation

47 3 Design of Lag network using Bode plots

48 3 Design of Lag network using Bode plots

49 3 Design of Lag network using root locus

50 3 Tutorials on Lag design by Bode plot

51 3 Tutorials on Lag design by Root plot

52 3 Realization of Lead compensators by passive components, derivation

53 3 Design of lead network by Bode plot.

54 3 Design of lead network by Root locus

55 3 Tutorials on Lead compensator design by Bode Plot

56 3 Tutorials on Lead compensator design by root locus

57 3 Introduction to Controllers: P, PI and PID controllers. Application of P,PI, PID Controllers

58 3 Design of lag-lead compensator

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36

COURSE INFORMATION SHEET PROGRAMME:EEE DEGREE: BTECH

COURSE: DIGITAL SIGNAL

PROCESSING

SEMESTER: 6 CREDITS: 4

COURSE CODE: EE010604

REGULATION:UG

COURSE TYPE: CORE

COURSE AREA/DOMAIN:

ELECTRICAL AND

ELECTRONICS/COMMUNICATION

CONTACT HOURS: 4+2

(Tutorial) hours/Week.

CORRESPONDING LAB COURSE

CODE (IF ANY):NIL

LAB COURSE NAME: NIL

SYLLABUS:

UNIT DETAILS HOURS

I DISCRETE TIME SIGNALS AND SYSTEMS: BASIC

PRINCIPLES OF SIGNAL PROCESSING-

BUILDING BLOCKS OF DIGITAL SIGNAL

PROCESSING. REVIEW OF SAMPLING PROCESS

AND SAMPLING THEOREM. STANDARD

SIGNALS-DELTA, STEP, RAMP. EVEN AND ODD

FUNCTIONS. PROPERTIES OF SYSTEMS-

LINEARITY, CAUSALITY, TIME VARIANCE,

CONVOLUTION AND STABILITY –DIFFERENCE

EQUATIONS-FREQUENCY DOMAIN

REPRESENTATION – DISCRETE – TIME

FOURIER TRANSFORM AND ITS PROPERTIES- Z

TRANSFORM AND INVERSE Z TRANSFORM-

SOLUTION OF DIFFERENCE EQUATIONS.

12

II DISCRETE FOURIER TRANSFORM-INVERSE

DISCRETE FOURIER TRANSFORM-PROPERTIES

OF DFT-LINEAR AND CIRCULAR

12

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37

CONVOLUTION-OVERLAP AND ADD METHOD-

OVERLAP AND SAVE METHOD-FFT - RADIX 2

DIT FFT-RADIX2 DIF FFT

III DIGITAL FILTER DESIGN: DESIGN OF IIR

FILTERS FROM ANALOG FILTERS - ANALOG

BUTTER WORTH FUNCTIONS FOR VARIOUS

FILTERS - ANALOG TO DIGITAL

TRANSFORMATION-BACKWARD DIFFERENCE

AND FORWARD DIFFERENCE

APPROXIMATIONS-IMPULSE INVARIANT

TRANSFORMATION – BILINEAR

TRANSFORMATIONFREQUENCY WARPING

AND PRE WARPING-DESIGN EXAMPLES-

FREQUENCY TRANSFORMATIONS.

STRUCTURES FOR REALIZING DIGITAL IIR

FILTERS-DIRECT FORM 1-DIRECT FORM II-

PARALLEL AND CASCADE STRUCTURE -

LATTICE STRUCTURE.

17

IV DESIGN OF FIR FILTERS-PROPERTIES OF FIR

FILTERS-DESIGN OF FIR FILTERS USING

FOURIER SERIES METHOD- DESIGN OF FIR

FILTERS WITHOUT USING WINDOWS- DESIGN

OF FIR FILTERS USING WINDOWS- DESIGN

USING FREQUENCY SAMPLING-DESIGN USING

FREQUENCY SAMPLING METHOD-DESIGN

USING KAISER’S APPROACH- REALIZATION OF

FIR FILTERS.

13

V FINITE REGISTER LENGTH PROBLEMS IN

DIGITAL FILTERS-FIXED POINT AND FLOATING

POINT FORMATS-ERRORS DUE TO

9

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38

QUANTIZATION, TRUNCATION AND ROUND

OFF. INTRODUCTION TO DSP PROCESSORS.

ARCHITECTURE OF TMS 320C54 XX DIGITAL

SIGNAL PROCESSOR. PRINCIPLE OF SPEECH

SIGNAL PROCESSING (BLOCK SCHEMATIC

ONLY).

TOTAL HOURS 60

TEXT/REFERENCE BOOKS:

T/R BOOK TITLE/AUTHORS/PUBLICATION

T SIGNALS AND SYSTEMS ,SIMON HAYKIN AND BARRY VAN VEEN ,

SECOND EDN,JOHNWILEY,INDIA ,2010.

R DIGITAL SIGNAL PROCESSING ,JOHN G. PROAKIS, DIMITRIS G.

MANOLAKIS, PHI,NEW DELHI,1997

R DIGITAL SIGNAL PROCESSING, P.RAMESHBABU AND R. ANANDA

NATARAJAN, , SECOND EDITION ,SCITECH,2008

R DIGITAL SIGNAL PROCESSING ,MITRA , TATA MCGRAW –HILL

EDUCATION NEW DELHI,2007

T DIGITAL SIGNAL PROCESSING,GANESH RAO, SANGUINS,2007

R SIGNALS AND SYSTEMS ,SIMON HAYKIN AND BARRY VAN VEEN ,

SECOND EDN,JOHNWILEY,INDIA ,2010.

R DIGITAL SIGNAL PROCESSING ,JOHN G. PROAKIS, DIMITRIS G.

MANOLAKIS, PHI,NEW DELHI,1997

R DIGITAL SIGNAL PROCESSING, P.RAMESHBABU AND R. ANANDA

NATARAJAN, , SECOND EDITION ,SCITECH,2008

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39

COURSE PRE-REQUISITES

C.CODE COURSE NAME DESCRIPTION SEM

EE010

503

SIGNALS AND

SYTEMS

BASICS OF SIGNALS AND

SYSTEMS

5

COURSE OBJECTIVES:

1 TO PROVIDE KNOWLEDGE OF TRANSFORMS FOR THE

ANALYSIS OF DISCRETE TIME SYSTEMS.

2 TO IMPART KNOWLEDGE IN DIGITAL FILTER DESIGN

TECHNIQUES AND ASSOCIATED PROBLEMS.

.

COURSE OUTCOMES:

SNO DESCRIPTION PO

MAPPING

1 STUDENTS WILL BE ABLE TO APPLY THE

KNOWLEDGE OF MATHEMATICS IN

DISCRETE TIME SIGNALS AND SYSTEMS

A,B

2 STUDENTS WILL BE ABLE TO DESIGN AND

ANALYSE DISCRETE TIME FOURIER

TRANSFORM

B,C,D

3 STUDENTS WILL BE ABLE TO IDENTIFY,

ACQUIRE AND FORMULATE THE

KNOWLEDGE IN DESIGN AND REALIZATION

OF DIGITAL IIR FILTERS.

D,E,F

4 STUDENTS WILL BE ABLE TO IDENTIFY,

ACQUIRE AND FORMULATE THE

D,E,F

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40

KNOWLEDGE IN DESIGN AND REALIZATION

OF DIGITAL FIR FILTERS.

5 STUDENTS WILL BE ABLE TO ACQUIRE THE

BASIC KNOWLEDGE IN THE DIGITAL SIGNAL

PROCESSERS TO SOLVE COMPLEX

PROBLEMS AND TO MANAGE PROJECTS IN

SIGNAL PROCESSING

J,K

GAPS IN THE SYLLABUS - TO MEET INDUSTRY/PROFESSION

REQUIREMENTS:

SNO DESCRIPTION PROPOSED

ACTIONS

1 STUDENTS ARE NOT

INFORMED ABOUT SOLUTIONS

OF DIGITAL SIGNAL

PROCESSING USING SOFTWARE

TOOLS

MATLAB

PROPOSED ACTIONS: TOPICS BEYOND

SYLLABUS/ASSIGNMENT/INDUSTRY VISIT/GUEST LECTURER/NPTEL

ETC

TOPICS BEYOND SYLLABUS/ADVANCED TOPICS/DESIGN:

1 STUDENTS ARE GIVEN BASIC INTRODUCTION TO MATLAB FOR

SOLVING DIGITAL SIGNAL PROCESSING PROBLEMS

WEB SOURCE REFERENCES:

1 PROF. ALAN V. OPPENHEIM (2011, SPRING),DIGITAL

SIGNAL PROCESSING [ ON LINE]. AVAILABLE:

2 HTTP://OCW.MIT.EDU/RESOURCES/RES-6-008-DIGITAL-

SIGNAL-PROCESSING-SPRING-2011/INDEX.HTM

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3 PROF: GOVIND SHARMA ( ) DIGITAL SIGNAL PROCESSING [

ON LINE] .AVAILABLE :

HTTP://NPTEL.IITM.AC.IN/COURSES/WEBCOURSE-

CONTENTS/IIT-KANPUR/DIGI_SIGN_PRO/UI/TOC.HTM

DELIVERY/INSTRUCTIONAL METHODOLOGIES:

☑ CHALK &

TALK

☐ STUD.

ASSIGNMENT

☐ WEB

RESOURCES

☑ LCD/SMART

BOARDS

☐ STUD.

SEMINARS

☐ ADD-ON

COURSES

ASSESSMENT METHODOLOGIES-DIRECT

ASSIGNMENTS

☑ STUD.

SEMINARS

☑TESTS/MODEL

EXAMS

☑ UNIV.

EXAMINATION

☑ STUD. LAB

PRACTICES

☑ STUD. VIVA ☐ MINI/MAJOR

PROJECTS

CERTIFICATIONS

☐ ADD-ON

COURSES

☐ OTHERS

ASSESSMENT METHODOLOGIES-INDIRECT

☐ ASSESSMENT OF COURSE

OUTCOMES (BY FEEDBACK, ONCE)

☑ STUDENT FEEDBACK ON

FACULTY (TWICE)

☐ ASSESSMENT OF MINI/MAJOR

PROJECTS BY EXT. EXPERTS

☐ OTHERS

Prepared by Approved by

GINNES K JOHN MS JAYASRI R NAIR

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COURSE PLAN

Lecture Module Plan

1 1 Discrete time signals and systems

2 1 Building blocks of digital signal processing

3 1 sampling process and sampling theorem

4 1 Standard signals-delta, step, ramp. Even and odd functions

5 1 Tutorial for L1 to L4

6 1 Properties of systems-linearity, causality, time variance, convolution and stability

7 1 Discrete - time Fourier transform

8 1 Discrete - time Fourier transform properties

9 1 Tutorial for L6-L7

10 1 Z transform

11 1 Inverse Z transform

12 1 Inverse Z transform

13 1 solution of difference equations

14 1 Tutorial for L8-L11

15 2 Discrete Fourier transform

16 2 Inverse discrete Fourier transform

17 2 properties of DFT

18 2 Linear and circular convolution

19 2 Tutorial for L12-L15

20 2 Overlap and add method

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21 2 Overlap and save method

22 2 FFT - radix 2 DIT

23 2 Tutorial for L16-L17

24 2 FFT - radix 2 DIT

25 2 Radix2 DIF FFT

26 2 Radix2 DIF FFT

27 2 Tutorial for L18-L19

28 3 Design of IIR filters from analog filters

29 3 Analog butter worth functions for various filters

30 3 Analog to digital transformation

31 3 Backward difference and forward difference approximations

32 3 Tutorial for L22-L25

33 3 Impulse invariant transformation

34 3 Bilinear transformation

35 3 Frequency warping and pre warping

36 3 Structures for realizing digital IIR filters-Direct form 1& Direct form II

37 3 Tutorial for L26-L29

38 3 Structures for realizing digital IIR filters- parallel and cascade structure

39 3 Structures for realizing digital IIR filters- lattice structure

40 4 Design of FIR filters - Fourier series method

41 4 Tutorial for L32

42 4 Properties of FIR filters

43 4 Design of FIR filters using windows

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44 4 Design of FIR filters using Rectangular window

45 4 Design of FIR filters using Hamming window

46 4 Tutorial for L34-L36

47 4 Design of FIR filters using Hanning windows

48 4 Design using frequency sampling method

49 4 Design using Kaiser's approach

50 4 Tutorial for L37-L39

51 4 Realization of FIR filters

52 4 Realization of FIR filters

53 5 Finite register length problems in digital filters

54 5 Fixed point and floating point formats

55 5 Tutorial for L42-L43

56 5 Errors due to quantization, truncation and round off

57 5 Errors due to quantization, truncation and round off

58 5 Errors due to quantization, truncation and round off

59 5 Introduction to DSP processors

60 5 Tutorial for L44-L47

61 5 Architecture of TMS 320C54 XX Digital Signal Processor

62 5 Principle of speech signal processing

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COURSE INFORMATION SHEET

PROGRAMME: Electrical &

Electronics Engineering

DEGREE: BTECH

COURSE: MICROCONTROLLERS &

EMBEDDED SYSTEMS

SEMESTER: VI CREDITS: 4

COURSE CODE: EE 010 605 REGULATION:UG

COURSE TYPE: CORE

COURSE AREA/DOMAIN: EMBEDDED

SYSTEMS

CONTACT HOURS:

3+1(TUTORIAL)hours/Week.

CORRESPONDING LAB COURSE CODE

(IF ANY):YES

LAB COURSE

NAME:MICROCONTROLLER &

MICROPROCESSOR LAB

SYLLABUS:

UNIT DETAILS HOURS

I INTRODUCTION TO EMBEDDED SYSTEMS (BLOCK

DIAGRAM DESCRIPTION)- MICROCONTROLLERS AND

MICROPROCESSORS – COMPARISON. INTEL 8051:

ARCHITECTURE–BLOCK DIAGRAM-OSCILLATOR AND

CLOCK-INTERNAL REGISTERS-PROGRAM COUNTER-

PSW-REGISTER BANKS-INPUT AND OUTPUT PORTS-

INTERNAL AND EXTERNAL MEMORY, COUNTERS AND

TIMERS, SERIAL DATA I/O- INTERRUPTS – SFRS

14

II PROGRAMMING OF 8051:

INSTRUCTION SYNTAX-TYPES OF INSTRUCTIONS–MOVING

DATA-ARITHMETIC INSTRUCTIONS-JUMP AND CALL

INSTRUCTIONS-LOGICAL INSTRUCTIONS-SINGLE BIT

INSTRUCTIONS. ARITHMETIC PROGRAMS

TIMING SUBROUTINES –SOFTWARE TIME DELAY-

14

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SOFTWARE POLLED TIMER ADDRESSING MODES

APPLICATION OF KEIL C IN MICROCONTROLLER

PROGRAMMING.

III I/O PROGRAMMING:

TIMER/COUNTER PROGRAMMING-INTERRUPTS

PROGRAMMING- TIMER AND EXTERNAL INTERRUPTS

SERIAL COMMUNICATION- DIFFERENT CHARACTER

TRANSMISSION TECHNIQUES USING TIME DELAY, POLLING

AND INTERRUPT DRIVEN-RECEIVING SERIAL DATA –

POLLING FOR RECEIVED DATA, INTERRUPT DRIVEN DATA

RECEPTION-RS232 SERIAL BUS STANDARD.

10

IV MICROCONTROLLER SYSTEM DESIGN:

EXTERNAL MEMORY AND MEMORY ADDRESS DECODING

FOR EPROM AND RAM.-INTERFACING KEYBOARD. 7

SEGMENT DISPLAY AND LCD DISPLAY.-INTERFACING OF

ADC (0808) AND DAC (808) TO 8051-FREQUENCY

MEASUREMENT - INTERFACING OF STEPPER MOTOR.

10

V INTRODUCTION TO RISC MICROCONTROLLERS:

ARCHITECTURE OF PIC 16F877 MICROCONTROLLER-

FSR -DIFFERENT RESET CONDITIONS.VARIOUS

OSCILLATOR CONNECTIONS- INTERNAL RC, EXTERNAL

RC, CRYSTAL OSCILLATOR AND EXTERNAL CLOCK.PIC

MEMORY ORGANIZATION – PROGRAM (CODE) MEMORY

AND MEMORY MAP, DATA MEMORY AND DATA

EEPROM.INSTRUCTION SET – DIFFERENT ADDRESSING

MODES. TIMERS - INTERRUPT STRUCTURE IN PIC

16F877 MICROCONTROLLER.SIMPLE ASSEMBLY

LANGUAGE PROGRAMS - SQUARE WAVE GENERATION -

12

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READING/WRITING WITH INTERNAL DATA EEPROM.

TOTAL HOURS 60

TEXT/REFERENCE BOOKS:

T/R BOOK TITLE/AUTHORS/PUBLICATION T MUHAMMAD ALI MAZIDI AND JANICE GILLISPIEMAZIDI, THE 8051

MICROCONTROLLER AND EMBEDDED SYSTEMS, PEARSON EDUCATION ASIA. T AJAY V DESHMUKH , MICROCONTROLLERS- THEORY AND APPLICATIONS ,

TATA MCGRAW – HILL EDUCATION, NEW DELHI R KENNETH J.AYALA, THE 8051 MICROCONTROLLER – ARCHITECTURE,

PROGRAMMING AND APPLICATIONS, PENRAM INTERNATIONAL PUBLISHING

(INDIA),ED 2 R K.V.SHIBU, INTRODUCTION TO EMBEDDED SYSTEMS, 1E, TATA MCGRAW –

HILL EDUCATION, NEW DELHI 2009 R JOHN B. PEATMAN, DESIGN WITH PIC MICROCONTROLLERS , PEARSON

EDUCATION R MYKEPREDKO, PROGRAMMING AND CUSTOMIZING THE 8051

MICROCONTROLLER, TATA MCGRAW HILL EDUCATION, NEW DELHI, 2009 R INTEL DATA BOOK ON MCS 51 FAMILY

COURSE PRE-REQUISITES:

C.CODE COURSE NAME DESCRIPTION SEM

EE010506 MICROPROCESSORS &

APPLICATIONS

A THOROUGH UNDERSTANDING

ABOUT THE BASICS OF

MICROPROCESSORS, PROGRAMMING

AND APPLICATIONS.

5

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48

COURSE OBJECTIVES:

1 TO IMPART AN INSIGHT INTO THE ARCHITECTURE OF 8051 MICROCONTROLLER.

2 TO DEVELOP SOUND UNDERSTANDING ABOUT PROGRAMMING AND INTERFACING

OF 8051 MICROCONTROLLER.

3 TO DEVELOP UNDERSTANDING OF ADVANCED PIC 16F877 MICROCONTROLLER

AND EMBEDDED SYSTEMS.

COURSE OUTCOMES:

SNO DESCRIPTION PO MAPPING

1 STUDENTS WILL BE ABLE TO DEVELOP AN IDEA ABOUT THE

BASICS OF EMBEDDED SYSTEMS AND OF MICROCONTROLLERS. A,E

2 STUDENTS WILL BE ABLE TO PROGRAM A MICROCONTROLLER

SYSTEM IN ASSEMBLY CODE AND C. B,K,D

3 STUDENTS WILL BE ABLE TO DESIGN AND INTERFACE

MICROCONTROLLER-BASED EMBEDDED SYSTEMS. B,C,I

4 STUDENTS WILL BE ABLE TO DEVELOP A BASIC KNOWLEDGE

ABOUT PIC 16F877. A

5 STUDENTS WILL BE ABLE TO DEVELOP A BASIC IDEA ON

PROGRAMMING OF PIC 16F877. A,K,D

GAPS IN THE SYLLABUS - TO MEET INDUSTRY/PROFESSION

REQUIREMENTS:

SNO DESCRIPTION PROPOSED ACTIONS

1 PROGRAMMING USING SIMULATION SOFTWARE

MULTISIM.

VARIOUS PROGRAMMING

EXAMPLES USING MULTISIM

11.

PROPOSED ACTIONS: TOPICS BEYOND

SYLLABUS/ASSIGNMENT/INDUSTRY VISIT/GUEST LECTURER/NPTEL

ETC

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49

TOPICS BEYOND SYLLABUS/ADVANCED TOPICS/DESIGN:

1 KEIL C PROGRAMMING FOR TIMERS, INTERRUPTS & SERIAL COMMUNICATION.

2 INTERFACING OF 8255 PPI TO 8051 MICROCONTROLLER.

WEB SOURCE REFERENCES:

1 MICROCHIP, “28/40-PIN 8-BIT CMOS FLASH MICROCONTROLLERS,”

DS30292C DATASHEET, 2001.

DELIVERY/INSTRUCTIONAL METHODOLOGIES:

CHALK &

TALK

STUD.

ASSIGNMENT ☐ WEB RESOURCES

LCD/SMART

BOARDS ☐ STUD. SEMINARS ☐ ADD-ON COURSES

ASSESSMENT METHODOLOGIES-DIRECT

ASSIGNMENTS

☐ STUD.

SEMINARS

TESTS/MODEL

EXAMS

UNIV.

EXAMINATION

☐ STUD. LAB

PRACTICES ☐ STUD. VIVA

☐ MINI/MAJOR

PROJECTS

CERTIFICATIONS

☐ ADD-ON

COURSES ☐ OTHERS

ASSESSMENT METHODOLOGIES-INDIRECT

ASSESSMENT OF COURSE

OUTCOMES (BY FEEDBACK, ONCE)

STUDENT FEEDBACK ON

FACULTY (TWICE)

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☐ ASSESSMENT OF MINI/MAJOR

PROJECTS BY EXT. EXPERTS

☐ OTHERS

Prepared by Approved by

MS.RAGAM RAJAGOPAL MS.JAYASRI R NAIR

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COURSE PLAN

Lecture Module Plan

1 1 Brief Introduction about the subject

2 1 Introduction to Embedded Systems (block diagram description)

3 1 Introduction to Microcontrollers and Comparison between Microprocessors and Microcontrollers

4 1 Intel 8051: Architecture-Block diagram

5 1 Oscillator and Clock-Internal Registers-Program Counter & DPTR

6 1 PSW-Register Banks- SFRs-Stack & Stack Pointer

7 1 Internal Memory Organisation

8 1 External Memory Organisation

9 1 Timers

10 1 Counters

11 1 Serial data I/O

12 1 Interrupts

13 1 Input and Output ports (contd..)

14 1 Input and Output ports

15 2 Programming of 8051: Instruction syntax- Addressing Modes (contd...)

16 2 Addressing Modes

17 2 Types of instructions-Moving data

18 2 Arithmetic Instructions

19 2 Jump Instructions

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20 2 Call Instructions

21 2 Logical Instructions

22 2 Push ,Pop & Exchange Opcodes

23 2 Introduction to Arithmetic Programs (contd..)

24 2 Programming Tutorials

25 2 Application of Keil C in microcontroller programming.

26 2 Programming Tutorials

27 3 I/O Programming: Timing subroutines -Software time delay

28 3 Software polled timer- Timer/Counter Programming modes (contd...)

29 3 Timer/Counter Programming modes

30 3 Tutorials on Timer/Counter Programming

31 3 Interrupts Programming

32 3 Tutorials on Interrupts Programming

33 3 Timer Interrupts & External Interrupts

34 3 Introduction to Serial Communication-Modes of serial communication

35 3 RS232 Serial Bus standard-MAX232

36 3 Interrupt driven character transmission techniques

37 3 Different character transmission techniques using time delay and polling

38 3 Receiving serial data--Polling for received data and interrupt driven data reception

39 4 Microcontroller system design: External memory and Memory Address Decoding for EPROM and RAM.

40 4 Interfacing keyboard

41 4 Interfacing 7 segment display

42 4 Interfacing LCD display

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43 4 Interfacing of ADC (0808)

44 4 Frequency measurement

45 4 Interfacing of stepper motor

46 4 Interfacing of DAC (0808) to 8051

47 5 Introduction to RISC Microcontrollers: Architecture of PIC 16F877 microcontroller

48 5 FSR- different Reset conditions -Various oscillator connections

49 5 PIC memory organization

50 5 Program (Code) memory and memory map

51 5 Data memory and Data EEPROM

52 5 Instruction set - Different addressing modes

53 5 Interrupt structure in PIC 16F877 microcontroller

54 5 Brief description of Ports,CCPmodule,Serialcommunication,ADC

55 5 Timers(contd..)

56 5 Timers

57 5 Tutorials on square wave generation

58 5 Tutorials on reading with internal data EEPROM

59 5 Tutorials on writing with internal data EEPROM

60 5 Tutorials

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COURSE INFORMATION SHEET PROGRAMME: Electrical &

Electronics Engineering

DEGREE: BTECH

COURSE: RENEWABLE ENERGY

RESOURCES

SEMESTER: VI CREDITS: 4

COURSE CODE: EE 010 606 REGULATION:UG

COURSE TYPE: CORE

COURSE AREA/DOMAIN: ELECTRICAL

AND ELECTRONICS ENGINEERING

CONTACT HOURS:

2+2(TUTORIAL)hours/Week.

CORRESPONDING LAB COURSE CODE

(IF ANY):NIL

LAB COURSE NAME:NIL

SYLLABUS:

UNIT DETAILS HOURS I ENERGY SCENARIO IN INDIA, ENVIRONMENTAL ASPECTS IN

ELECTRICAL ENERGY GENERATION, ENERGY FOR SUSTAINABLE

DEVELOPMENT, RENEWABLE ENERGY SOURCES – ADVANTAGES

AND LIMITATIONS RENEWABLE HYDRO, POWER EQUATION, SMALL , MINI, MICRO

HYDRO POWER, TYPES OF TURBINES AND GENERATORS

10

II SOLAR ENERGY – INTRODUCTION TO SOLAR ENERGY, SOLAR

RADIATION, AVAILABILITY, MEASUREMENT AND ESTIMATION SOLAR THERMAL SYSTEMS – SOLAR COLLECTORS (FUNDAMENTALS

ONLY), APPLICATIONS, SOLAR HEATING SYSTEMS, AIR

CONDITIONING AND REFRIGERATION SYSTEM, PUMPING SYSTEM, SOLAR COOKER, SOLAR FURNACE, SOLAR GREENHOUSE, DESIGN

OF SOLAR WATER HEATER

11

III SOLAR PHOTOVOLTAIC SYSTEMS, PHOTOVOLTAIC CONVERSION, SOLAR CELL, MODULE, PANEL AND ARRAY, SOLAR CELL-

MATERIALS - CHARACTERISTICS, EFFICIENCY, BATTERY BACK UP -

PV SYSTEM CLASSIFICATION, DESIGN OF STANDALONE PV SYSTEM

11

IV WIND ENERGY – INTRODUCTION- BASIC PRINCIPLES OF WIND

ENERGY EXTRACTION, WIND DATA AND ENERGY ESTIMATION, SITE

SELECTION, BASIC COMPONENTS OF WIND ENERGY CONVERSION

SYSTEM, MODES OF WIND POWER GENERATION, APPLICATIONS

13

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FUEL CELLS, CHARACTERISTICS, TYPES AND APPLICATIONS V BIOMASS ENERGY- RESOURCES- BIOFUELS-BIOMASS CONVERSION

PROCESS-APPLICATIONS TIDAL POWER – ENERGY ESTIMATION – SITE SELECTION – TYPES –

IMPORTANT COMPONENTS OF TIDAL POWER PLANTS WAVE ENERGY – CHARACTERISTICS, ENERGY AND POWER FROM

THE WAVES, WAVE ENERGY CONVERSION DEVICES GEOTHERMAL ENERGY – RESOURCES – ESTIMATION OF

GEOTHERMAL POWER- GEOTHERMAL ENERGY CONVERSION-APPLICATIONS

15

TOTAL HOURS 60

TEXT/REFERENCE BOOKS:

T/R BOOK TITLE/AUTHORS/PUBLICATION T D.P. KOTHARI, K.C. SINGAL, RAKESHRANJAN, RENEWABLE ENERGY SOURCES

AND EMERGING TECHNOLOGIES, PRENTICE HALL OF INDIA, NEW DELHI, 2009 T B.H. KHAN, NON-CONVENTIONAL ENERGY RESOURCES, 2ND EDITION, TATA

MCGRAWHILL, NEW DELHI, 2010 T CHETAN SINGH SOLANKI, RENEWABLE ENERGY TECHNOLOGIES, PRENTICE

HALL OF INDIA, NEW DELHI, 2009 R GODFREY BOYLE, RENEWABLE ENERGY, OXFORD UNIVERSITY PRESS, 2004 R TASNEEMABBASI, S.A. ABBASI, RENEWABLE ENERGY SOURCES, PRENTICE

HALL OF INDIA, NEW DELHI, 2010 R SIRAJ AHMED, WIND ENERGY – THEORY AND PRACTICE , PRENTICE HALL OF

INDIA, NEW DELHI 2010

COURSE PRE-REQUISITES:

C.CODE COURSE NAME DESCRIPTION SEM EN 010

108 BASIC ELECTRICAL ENGINEERING FUNDAMENTALS OF ELECTRIC

POWER GENERATION 1 &

2 EN 010

107 BASIC MECHANICAL ENGINEERING BASICS OF WATER TURBINES 1 &

2 EE 010

306(ME) MECHANICAL TECHNOLOGY BASICS OF REFRIGERATION &

AIR CONDITIONING 3

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COURSE OBJECTIVES:

1 TO UNDERSTAND THE IMPORTANCE, SCOPE AND POTENTIAL OF RENEWABLE

ENERGY RESOURCES

2 TO IMPART KNOWLEDGE ON THE THEORY AND APPLICATIONS OF RENEWABLE

ENERGY

COURSE OUTCOMES:

S.NO DESCRIPTION PO MAPPING

1 STUDENTS WILL BE ABLE TO UNDERSTAND THE IMPACT OF

RENEWABLE ENERGY UTILISATION ON SOCIETY H

2 STUDENTS WILL BE ABLE TO ANALYSE AND INTERPRET THE

POTENTIAL OF RENEWABLE ENERGY AT ANY LOCATION K

3 STUDENTS WILL BE ABLE TO GAIN KNOWLEDGE ON THE THEORY

AND APPLICATIONS OF RENEWABLE ENERGY A, J

4 STUDENTS WILL BE ABLE TO DO THE BASIC DESIGN OF VARIOUS

RENEWABLE ENERGY SYSTEMS FOR DIFFERENT REQUIREMENTS C

5 STUDENTS SHALL ACQUIRE KNOWLEDGE ON THE APPLICATION

OF RENEWABLE ENERGY SOURCES FOR PRODUCING ELECTRICAL

ENERGY

D, J

GAPS IN THE SYLLABUS - TO MEET INDUSTRY/PROFESSION

REQUIREMENTS:

SNO DESCRIPTION PROPOSED ACTIONS

1 THE ENERGY SCENARIO STATISTICS ARE NOT UP TO DATE

IN THE TEXT BOOK STUDENTS TO BE

PROVIDED WITH

THE LATEST

STATISTICS 2 FUNDAMENTALS OF ECONOMICS OF RENEWABLE ENERGY

SYSTEMS STUDENTS TO BE

TAUGHT ON

ECONOMICS OF

RENEWABLE

ENERGY SYSTEMS

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PROPOSED ACTIONS: TOPICS BEYOND

SYLLABUS/ASSIGNMENT/INDUSTRY VISIT/GUEST LECTURER/NPTEL

ETC

TOPICS BEYOND SYLLABUS/ADVANCED TOPICS/DESIGN:

1 FUNDAMENTALS OF OCEAN THERMAL ENERGY CONVERSION AND

INFORMATION OF DIFFERENT TYPES OF BIOGAS PLANTS

2 INFORMATION REGARDING SOME EXISTING RENEWABLE ENERGY INSTALLATIONS

3 VIDEOS ON THE RENEWABLE ENERGY APPLICATIONS

WEB SOURCE REFERENCES:

1 (2013) MNRE WEBSITE [ONLINE] AVAILABLE: http://www.mnre.gov.in

2 (2013) ANERT WEBSITE [ONLINE] AVAILABLE: HTTP://ANERT.GOV.IN/

3 (2013) NREL WEBSITE [ONLINE] AVAILABLE: HTTP://WWW.NREL.GOV/

DELIVERY/INSTRUCTIONAL METHODOLOGIES:

CHALK &

TALK

STUD.

ASSIGNMENT ☐ WEB RESOURCES

LCD/SMART

BOARDS ☐ STUD. SEMINARS ☐ ADD-ON COURSES

ASSESSMENT METHODOLOGIES-DIRECT

☐ STUD. UNIV.

http://www.mnre.gov.in/
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ASSIGNMENTS SEMINARS TESTS/MODEL

EXAMS

EXAMINATION

☐ STUD. LAB

PRACTICES ☐ STUD. VIVA

☐ MINI/MAJOR

PROJECTS

CERTIFICATIONS

☐ ADD-ON

COURSES ☐ OTHERS

ASSESSMENT METHODOLOGIES-INDIRECT

ASSESSMENT OF COURSE

OUTCOMES (BY FEEDBACK, ONCE)

STUDENT FEEDBACK ON

FACULTY (TWICE)

☐ ASSESSMENT OF MINI/MAJOR

PROJECTS BY EXT. EXPERTS

☐ OTHERS

Prepared by Approved by

MR.VINU THOMAS MS.JAYASRI R NAIR

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COURSE PLAN Lecture Module Plan

1 1 Introduction to Energy, Importance of Renewable Energy Source

2 1 Energy Scenario in India

3 1 Tutorial Topics taught till date

4 1 Environmental aspects of Electrical Energy Generation- Thermal

5 1 Environmental aspects of Nuclear, Solar, Wind and Biomass

6 1 Tutorial Topics taught till date

7 1 Energy for sustainable development, Small Hydro, Power Equation

8 1 Medium/High head design

9 1 Water Turbines- Reaction Turbines- Propeller Type, Semi Kaplan, Kaplan

10 1 Bulb, Tube and Straflo Turbines

11 1 Tutorial Topics taught till date

12 1 Water Turbines - Francis, Pelton, Ossberger, Turgo, Generators

13 2 Introduction to solar energy-solar radiation

14 2 Availability of solar radiation

15 2 Solar Radiation measurement

16 2 Tutorial Topics taught till date

17 2 Estimation of available solar energy

28 2 Solar Thermal Systems- Types of solar collectors

29 2 Solar Heating Systems- Air conditioning and refrigeration system

30 2 Tutorial Topics taught till date

31 2 Solar pumping system

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32 2 Tutorial Topics taught till date

33 2 Solar Cookers- Types, Solar Furnace

34 2 Solar Green House

35 2 Solar Water Heaters, Design of solar water heater

36 2 Tutorial Topics taught till date

18 3 Introduction of Solar Photovoltaic Systems

19 3 Photovoltaic Conversion- Technology

20 3 Principles of Solar Cells, Module, Panel, Array

21 3 Tutorial Topics taught till date

22 3 Solar Cell Materials used

23 3 Solar Cell characteristics, Efficiency

24 3 PV system classification

25 3 Tutorial Topics taught till date

26 3 Battery back up system- Design and Application

27 3 Design of standalone solar pv system

37 4 Introduction to Wind Energy System

38 4 Basic principles of wind energy extraction

39 4 Wind data and energy estimation

40 4 Tutorial Topics taught till date

41 4 Site selection

42 4 Basic components of wind energy system

43 4 Modes of wind power generation - Applications

44 4 Fuel Cells- Characteristics

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45 4 Tutorial Topics taught till date

46 4 Fuel Cells- Types and Application

47 5 Introduction to Biomass Energy

48 5 Biomass resources

49 5 Biofuels,

50 5 Tutorial Topics taught till date

51 5 Biomass Conversion process, Applications

52 5 Tidal Power, Energy Estimation

53 5 Site Selection and Types

54 5 Important components of a tidal power plant

55 5 Tutorial Topics taught till date

56 5 Wave Energy Characteristics

57 5 Energy and Power from the waves- Basic principle

58 5 Wave Energy Conversion devices

59 5 Geothermal Energy - Resources and potential

60 5 Tutorial Topics taught till date

61 5 Estimation of Geothermal Energy

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COURSE INFORMATION SHEET PROGRAMME: Electrical &

Electronics Engineering

DEGREE: BTECH

COURSE: POWER ELECTRONICS LAB SEMESTER: VI CREDITS: 2

COURSE CODE: EE 010 607 REGULATION:UG

COURSE TYPE: CORE

COURSE AREA/DOMAIN: POWER

SYSTEMS

CONTACT HOURS: 3hours/Week.

CORRESPONDING LAB COURSE CODE

(IF ANY):

LAB COURSE NAME:

SYLLABUS:

UNIT DETAILS HOURS

I

1.A) R AND RC TRIGGERING CIRCUITS. 2.A) TRIGGERING CIRCUIT USING UJT. 3.A) STATIC CHARACTERISTICS OF A TRIAC (STUDY). 4.A) STATIC CHARACTERISTICS OF A BJT (STUDY). 5.A) STATIC CHARACTERISTICS OF AN IGBT (STUDY). 6.A) SINGLE PHASE FULL WAVE FULLY CONTROLLED BRIDGE RECTIFIER (STUDY).

6

II

1.A) SINGLE PHASE HALF WAVE RECTIFIER. 24 2.A) SINGLE PHASE FULL WAVE RECTIFIER- CENTRE TAPPED CONFIGURATION. 3.A) SINGLE PHASE FULL WAVE SEMI-CONTROLLED BRIDGE RECTIFIER. 3.B) SPEED CONTROL OF A DC MOTOR USING A CONVERTER. 4.A) SPEED CONTROL OF DC MOTOR USING A CHOPPER.

24

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4.B) OSCILLATION CHOPPER. 5.A) VOLTAGE COMMUTATED CHOPPER. 5.B) AC PHASE CONTROL USING TRIAC. 6.A) AC PHASE CONTROL USING THYRISTORS . ( SIMULATION USING PSIM ALSO) 7.A) STATIC CHARACTERISTICS OF A THYRISTOR. 8.A ) STATIC CHARACTERISTICS OF A MOSFET. 8.B) AUTOMATIC LIGHTING CONTROL USING THYRISTOR.

TOTAL HOURS 30

TEXT/REFERENCE BOOKS:

T/R BOOK TITLE/AUTHORS/PUBLICATION

T.1 JOSEPH VITHAYATHIL , POWER ELECTRONICS-

PRINCIPLES AND APPLICATIONS, TMH, 2010

T.2 M.H. RASHID , POWER ELECTRONICS – CIRCUITS, DEVICES

AND APPLICATIONS, PHI/PEARSON,2005

COURSE PRE-REQUISITES:

C.CODE COURSE NAME DESCRIPTION SEM

EE 010

504

POWER ELECTRONICS STUDENTS STUDIES THEORY IN

THIS PAPER

V

COURSE OBJECTIVES:

1

TO PROVIDE EXPERIENCE ON DESIGN AND ANALYSIS OF POWER

ELECTRONIC CIRCUITS USED FOR POWER ELECTRONIC

APPLICATIONS

COURSE OUTCOMES:

Sl.NO DESCRIPTION PO

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MAPPING

1 GRADUATES WILL BE ABLE TO ANALYZE DIFFERENT

WAVEFORMS IN POWER ELECTRONIC CIRCUITS.

A, B , C, I

2 GRADUATES WILL BE ABLE TO DESIGN VARIOUS FIRING

CIRCUITS BASED ON THE REQUIREMENT.

A, B C, I

3

GRADUATES WILL BE ABLE TO STUDY VARIOUS POWER

SEMICONDUCTOR DEVICES THAT ARE USED IN POWER

ELECTRONIC APPLICATIONS.

A, B

4

GRADUATES WILL LEARN BASIC CONCEPTS TO MODEL

DIFFERENT POWER ELECTRONIC CIRCUITS THAT CAN BE

USED TO CONTROL DEVICES IN VARIOUS REAL TIME

SYSTEMS.

C, D, E, I, K

5 GRADUATES WILL LEARN BASIC CONCEPTS WHICH CAN BE

APPLIED IN ADVANCED POWER ELECTRONIC CIRCUITS.

C, E, I

GAPS IN THE SYLLABUS - TO MEET INDUSTRY/PROFESSION

REQUIREMENTS:

Sl.NO DESCRIPTION PROPOSED

ACTIONS

1 NEED TO INCLUDE MICROCONTROLLER BASED

DESIGN OF POWER ELECTRONIC CIRUITS

ORGANIZE

WORKSHOP

PROPOSED ACTIONS: TOPICS BEYOND

SYLLABUS/ASSIGNMENT/INDUSTRY VISIT/GUEST LECTURER/NPTEL

ETC

TOPICS BEYOND SYLLABUS/ADVANCED TOPICS/DESIGN:

1 INTRODUCED SIMULATIONS THAT CAN BE APPLIED IN

ADVANCED POWER ELECTRONIC CIRCUITS

WEB SOURCE REFERENCES:

1

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PROF. KISHORE CHATTERJEE AND PROF. B.G. FERNANDES, POWER

ELECTRONICS, WWW.NPTEL.COM , RETRIEVED JANUARY 03, 2013,

FROM URL :

HTTP://NPTEL.IITM.AC.IN/SYLLABUS/SYLLABUS.PHP?SUBJECTID=1

08101038

DELIVERY/INSTRUCTIONAL METHODOLOGIES:

CHALK &

TALK

STUD.

ASSIGNMENT ☐ WEB RESOURCES

LCD/SMART

BOARDS ☐ STUD. SEMINARS ☐ ADD-ON COURSES

ASSESSMENT METHODOLOGIES-DIRECT

ASSIGNMENTS

☐ STUD.

SEMINARS

TESTS/MODEL

EXAMS

UNIV.

EXAMINATION

☐ STUD. LAB

PRACTICES ☐ STUD. VIVA

☐ MINI/MAJOR

PROJECTS

CERTIFICATIONS

☐ ADD-ON

COURSES ☐ OTHERS

ASSESSMENT METHODOLOGIES-INDIRECT

ASSESSMENT OF COURSE

OUTCOMES (BY FEEDBACK, ONCE)

STUDENT FEEDBACK ON

FACULTY (TWICE)

☐ ASSESSMENT OF MINI/MAJOR

PROJECTS BY EXT. EXPERTS

☐ OTHERS

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Prepared by Approved by

MS.ANNA MATHEW MS.JAYASRI R NAIR MR.GINNES K JOHN

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COURSE INFORMATION SHEET

PROGRAMME: Electrical &

Electronics Engineering

DEGREE: BTECH

COURSE: MICROPROCESSOR AND

MICROCONTROLLER LAB

SEMESTER: VI CREDITS: 2

COURSE CODE: EE 010 608 REGULATION:UG

COURSE TYPE: PRACTICAL

COURSE AREA/DOMAIN:

ELECTRONICS

CONTACT HOURS: 3hours

PRACTICAL/Week.

CORRESPONDING LAB COURSE CODE

(IF ANY):

LAB COURSE NAME:

SYLLABUS:

UNIT DETAILS HOURS I 8085 ASSEMBLY LANGUAGE PROGRAMMING EXPERIMENTS

FAMILIARIZATION OF 8085 MICROPROCESSOR AND TRAINER KIT 8-BIT AND 16 BIT ARITHMETIC OPERATIONS SORTING BCD TO BINARY AND BINARY TO BCD CONVERSION FINDING SQUARE ROOT OF A NUMBER FINDING OUT SQUARE ROOT OF A NUMBER SETTING UP TIME DELAY AND SQUARE WAVE GENERATION INTERFACING OF LED AND SEVEN SEGMENT DISPLAY.

12

II 8051 PROGRAMMING FAMILIARIZATION OF 8051 MICROCONTROLLER. BASIC ARITHMETIC OPERATIONS SETTING UP TIME DELAY USING TIMER AND SQUARE WAVE

GENERATION INTERFACING LEDS INTERFACING LCD DISPLAY

12

III MINI PROJECT 6 TOTAL HOURS 30

TEXT/REFERENCE BOOKS: T/R BOOK TITLE/AUTHORS/PUBLICATION

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R SATISH SHAH, 8051 MICROCONTROLLER , OXFORD HIGHER EDUCATION R RAMESH GAONKAR, MICROPROCESSOR ARCHITECTURE, PROGRAMMING AND

APPLICATIONS WITH 8085, PENRAM INTL. R B.RAM, FUNDAMENTALS OF MICROPROCESSORS AND MICROCOMPUTERS,

DHANPATRAI AND SONS R MUHAMMAD ALI MAZIDI AND JANICE GILLISPIEMAZIDI, THE 8051

MICROCONTROLLER AND EMBEDDED SYSTEMS, PEARSON EDUCATION ASIA. R KENNETH J.AYALA, THE 8051 MICROCONTROLLER – ARCHITECTURE,

PROGRAMMING AND APPLICATIONS, PENRAM INTERNATIONAL PUBLISHING

(INDIA),ED 2

COURSE PRE-REQUISITES: C.CODE COURSE NAME DESCRIPTION SEM

EN010

506 MICROPROCESSORS AND

APPLICATIONS 8085 MICROPROCESSOR

ARCHITECTURE PROGRAMMING

AND INTERFACING

5

COURSE OBJECTIVES: 1 TO PROVIDE EXPERIENCE IN THE PROGRAMMING OF 8085 MICROPROCESSOR AND

8051 MICROCONTROLLER 2 TO FAMILIARIZE WITH THE INTERFACING APPLICATIONS OF 8085

MICROPROCESSOR AND 8051 MICROCONTROLLER.

COURSE OUTCOMES: SL

NO DESCRIPTION PO

MAPPING 1 STUDENTS WILL BE ABLE TO UNDERSTAND THE HARDWARE

DETAILS OF 8085 AND 8051 A, B, K

2 STUDENTS WILL BE ABLE TO FAMILIARIZE WITH THE INTERFACING

OF PERIPHERALS WITH 8085 AND 8051 C, B

3 STUDENTS WILL BE ABLE TO SET UP WAVEFORM GENERATION

CIRCUITS USING 8085 AND 8051 A, K

4 STUDENTS WILL BE ABLE TO DEVELOP THE CONFIDENCE IN

DESIGNING AND REALIZING REAL TIME APPLICATIONS USING

MICROPROCESSOR AND MICROCONTROLLER.

I, B, E

5 STUDENTS WILL BE ABLE TO OVERCOME THE PRACTICAL

DIFFICULTIES OF REALIZING A CIRCUIT. B, E

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GAPS IN THE SYLLABUS - TO MEET INDUSTRY/PROFESSION REQUIREMENTS: SNO DESCRIPTION PROPOSED

ACTIONS 1 INTERFACING OF STEPPER MOTORS TO BE INCLUDED INCLUDED AS

ADVANCED EXPERIMENT

IN THE COURSE PROPOSED ACTIONS: TOPICS BEYOND

SYLLABUS/ASSIGNMENT/INDUSTRY VISIT/GUEST LECTURER/NPTEL

ETC TOPICS BEYOND SYLLABUS/ADVANCED TOPICS/DESIGN:

1 IMPLEMENTATION OF TRAFFIC SIGNAL CONTROL IN A COMPLEX JUNCTION. WEB SOURCE REFERENCES:

1 HTTP://NPTEL.IITM.AC.IN/COURSES/WEBCOURSE-CONTENTS/IISC-BANG/MICROPROCESSORS AND

MICROCONTROLLERS/PDF/LECTURE_NOTES/LNM1.PDF

2

PROF. KRISHNA KUMAR (JULY 2012) MICROPROCESSOR AND CONTROLLERS

WWW.NPTEL.COM RETRIEVED AUGUST 03, 2013, FROM URL : HTTP://NPTEL.IITM.AC.IN/COURSES/WEBCOURSE-CONTENTS/IISC

BANG/MICROPROCESSORS%20AND%20MICROCONTROLLERS/NEW_INDEX1.HT

ML DELIVERY/INSTRUCTIONAL METHODOLOGIES:

CHALK & TALK STUD. ASSIGNMENT

WEB RESOURCES

LCD/SMART

BOARDS STUD. SEMINARS ADD-ON COURSES

ASSESSMENT METHODOLOGIES-DIRECT

☐ASSIGNMENTS

☐STUD. SEMINARS

TESTS/MODEL EXAMS

UNIV. EXAMINATION

STUD. LAB

PRACTICES STUD. VIVA

MINI/MAJOR

PROJECTS ☐CERTIFICATION

http://nptel.iitm.ac.in/courses/Webcourse-contents/IISc-BANG/Microprocessors
http://nptel.iitm.ac.in/courses/Webcourse-contents/IISc-BANG/Microprocessors
http://www.nptel.com/
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S ADD-ON

COURSES ☐OTHERS

ASSESSMENT METHODOLOGIES-INDIRECT ASSESSMENT OF COURSE

OUTCOMES (BY FEEDBACK, ONCE) STUDENT FEEDBACK ON

FACULTY (TWICE)

☐ASSESSMENT OF MINI/MAJOR

PROJECTS BY EXT. EXPERTS

OTHERS

PREPARED BY APPROVED BY MR. JEBIN FRANCIS MS. JAYASRI R NAIR MS. RAGAMRAJAGOPAL


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