B.E. Electrical and Electronics Engineering

THIAGARAJAR COLLEGE OF ENGINEERING, MADURAI – 625 015(An Autonomous Institution Affiliated to Anna University)

FOUR-YEAR B.E. DEGREE COURSEELECTRICAL & ELECTRONICS ENGINEERING

(For the candidates admitted from the academic year 2005-2006 onwards)SUBJECTS OF STUDY

II SEMESTER

Subject Code Subject Name RegulationL T P C

TheoryE21 Mathematics-I 3 1 0 4E22 Materials Science 3 1 0 4E23 C & C++ Programming 3 1 0 4E24 Mechanics of Fluids 3 1 0 4E25 Electrical Circuits 3 1 0 4E26 Electronic Devices 3 1 0 4

PracticalE27 Electrical Foundation Laboratory 0 0 3 2E28 C & C++ Programming Laboratory 0 0 3 2E29 Workshop Practice 0 0 3 2

Total Credits: 30

III SEMESTER


TheoryE31 Mathematics-II 3 1 0 4E32 Thermal Engineering 3 1 0 4E33 DC Machines & Transformers 3 1 0 4E34 Network Analysis and Synthesis 3 1 0 4E35 Electronic Circuits 3 1 0 4E36 Engineering Electromagnetics 3 1 0 4E39 Professional Ethics 3 0 0 3

PracticalE37 DC Machines & Transformers Laboratory 0 0 3 2E38 Fluid mechanics & Thermal Engineering

Lab0 0 3 2

Total Credits: 31

IV SEMESTERSubject Code Subject Name Regulation

L T P CTheory

E41 Mathematics-III 3 1 0 4E42 AC Machines 3 1 0 4E43 Computer Architecture 3 1 0 4E44 Linear & Digital Integrated Circuits 3 1 0 4E45 Linear Control Systems 3 1 0 4E46 Measuring Instruments 3 1 0 4

PracticalE47 AC Machines Laboratory 0 0 3 2E48 Electronic Devices and Circuits

Laboratory0 0 3 2

E49 Professional Communication 1 1 1 2Total Credits: 30

V SEMESTERSubject Code Subject Name Regulation

L T P CTheory

E51 Numerical Methods 3 1 0 4E52 Microprocessors 3 1 0 4E53 Transmission & Distribution 3 1 0 4E54 Control system Design 3 1 0 4E55 Communication Engineering 3 1 0 4E56 Power Electronics 3 1 0 4E59 Total Quality Management 3 0 0 3

PracticalE57 Microprocessor Laboratory 0 0 3 2E58 Power Electronics Laboratory 0 0 3 2

Total Credits: 31

VI SEMESTERSubject Code Subject Name Regulation

L T P CTheory

E61 Generation, Utilization and Conservation 3 1 0 4E62 Digital Signal Processing 3 1 0 4E63 VLSI Design 3 1 0 4E64 Design of Transformers and Electrical

Machines3 1 0 4

E65 Microcontrollers 3 1 0 4E66 Operation Research 3 1 0 4E69 Environmental Science 3 0 0 3

Practical

E67 Integrated circuits Laboratory 0 0 3 2E68 Measurements and Control Laboratory 0 0 3 2

Total Credits: 31

VII SEMESTER


TheoryE71 Management Techniques 3 1 0 4E72 Power system Analysis 3 1 0 4E73 Protection & Switch gear 3 1 0 4E74 Drives and Control 3 1 0 4E7X Elective – I 3 1 0 4E7X Elective – II 3 1 0 4

PracticalE77 Microprocessor & Microcontroller

Applications Laboratory0 0 3 2

E78 Computer simulation Laboratory 0 0 3 2

Total Credits: 28

VIII SEMESTER


TheoryE81 Power system Operation & Control 3 1 0 4E8X Elective – III 3 1 0 4E8X Elective – IV 3 1 0 4

PracticalE84 Project work and Viva-Voce 0 0 18 12

Total Credits: 24

Credits for I Semester: 30

Total Credits for the award of B.E. Degree: 235

ELECTIVE SUBJECTS

VII SEMESTER

Sl. No. Subject Code Subject NameE7A Electronic Circuit DesignE7B Industrial ElectronicsE7C Internet and Java ProgrammingE7D Artificial IntelligenceE7E Electro Chemical EngineeringE7F Operating SystemsE7G Computer PeripheralsE7H RoboticsE7I High Voltage Engineering

VIII SEMESTER

Sl. No. Subject Code Subject Name1. E8A Design, Estimation & Costing2. E8B Operation & Maintenance of Electrical

Equipment3. E8C Computer Networks4. E8D High voltage Transmission5. E8E Non Linear systems6. E8F Advanced control Techniques7. E8G Data base Management system8. E8H Software Engineering9. E8I Power Plant Economics

SCHEME OF EXAMINATIONS

II SEMESTER

SubjectCode

Subject Name Duration ofExam inHours

MarksContinuousAssessment

(Max.)

TerminalExam(Max.)

Total

(Max.)Theory

E21 Mathematics-I 3 30 70 100E22 Materials Science 3 30 70 100E23 C & C++ Programming 3 30 70 100E24 Mechanics of Fluids 3 30 70 100E25 Electrical Circuits 3 30 70 100E26 Electronic Devices 3 30 70 100

PracticalE27 Electrical Foundation Laboratory 3 30 70 100E28 C & C++ Programming Laboratory 3 30 70 100E29 Workshop Practice 3 30 70 100

III SEMESTER

SubjectCode



(Max.)

TerminalExam(Max.)

Total

(Max.)Theory

E31 Mathematics-II 3 30 70 100E32 Thermal Engineering 3 30 70 100E33 DC Machines & Transformers 3 30 70 100E34 Network Analysis and Synthesis 3 30 70 100E35 Electronic Circuits 3 30 70 100E36 Engineering Electromagnetics 3 30 70 100E39 Professional Ethics 3 30 70 100

PracticalE37 DC Machines & Transformers

Laboratory3 30 70 100

E38 Fluid mechanics & ThermalEngineering Lab

3 30 70 100

Minimum marks for passing a subject: Terminal Exam – 35 Marks Total – 50 Marks

IV SEMESTER

SubjectCode



(Max.)

TerminalExam(Max.)

Total

(Max.)Theory

E41 Mathematics-III 3 30 70 100E42 AC Machines 3 30 70 100E43 Computer Architecture 3 30 70 100E44 Linear & Digital Integrated Circuits 3 30 70 100E45 Linear Control Systems 3 30 70 100E46 Measuring Instruments 3 30 70 100

PracticalE47 AC Machines Laboratory 3 30 70 100E48 Electronic Devices and Circuits


E49 Professional Communication 3 30 70 100

V SEMESTER

SubjectCode



(Max.)

TerminalExam(Max.)

Total

(Max.)Theory

E51 Numerical Methods 3 30 70 100E52 Microprocessors 3 30 70 100E53 Transmission & Distribution 3 30 70 100E54 Control system Design 3 30 70 100E55 Communication Engineering 3 30 70 100E56 Power Electronics 3 30 70 100E59 Total Quality Management 3 30 70 100

PracticalE57 Microprocessor Laboratory 3 30 70 100E58 Power Electronics Laboratory 3 30 70 100


VI SEMESTER

SubjectCode



(Max.)

TerminalExam(Max.)

Total

(Max.)Theory

E61 Generation, Utilization andConservation

3 30 70 100

E62 Digital Signal Processing 3 30 70 100E63 VLSI Design 3 30 70 100E64 Design of Transformers and

Electrical Machines3 30 70 100

E65 Microcontrollers 3 30 70 100E66 Operation Research 3 30 70 100E69 Environmental Science 3 30 70 100

PracticalE67 Integrated circuits Laboratory 3 30 70 100E68 Measurements and Control


VII SEMESTER

SubjectCode



(Max.)

TerminalExam(Max.)

Total

(Max.)Theory

E71 Management Techniques 3 30 70 100E72 Power system Analysis 3 30 70 100E73 Protection & Switch gear 3 30 70 100E74 Drives and Control 3 30 70 100E7X Elective – I 3 30 70 100E7X Elective – II 3 30 70 100

PracticalE77 Microprocessor & Microcontroller

Applications Laboratory3 30 70 100

E78 Computer simulation Laboratory 3 30 70 100


.

VIII SEMESTER

SubjectCode



(Max.)

TerminalExam(Max.)

Total

(Max.)Theory

E81 Power system Operation & Control 3 30 70 100E8X Elective – III 3 30 70 100E8X Elective – IV 3 30 70 100

PracticalE84 Project work and Viva-Voce 3 150 150 300

Minimum marks for passing a subject: Terminal Exam – 35 MarksTotal – 50 Marks

Minimum marks for passing Project work and Viva-Voce:Terminal Exam

– 75 MarksTotal – 150 Marks

QUESTION PAPER PATTERN

Duration: 3 Hours Maximum Marks: 100

Answer all questions

The Question paper consists of two parts.

Part A: Ten short answer questions, two from each unit. Each question carries 2 marks

(10 X 2 = 20 Marks).

Part B: Question No. 11 is compulsory and may from any one of the unit of the syllabus and carries 20

marks. Question no. 12 – 19, will be either or type covering the remaining units of the syllabus ( 2

questions from each unit excluding the unit in which question no. 11 is set) and each question carries 15

marks.

II SEMESTER

Specialization B.E. EEE P.T.B.E.Electrical

Lecture

Tutorial Practice Credit

Subject code E 21 Q11 3 1 0 4

E21/Q11 MATHEMATICS-I(Common to B.E. and P.T.B.E. for all branches of Engineering)

Objective: An engineering student needs to have some basic mathematical tools and techniques whichemphasis the development of rigorous logical thinking and analytical skills. Based on this the course aimsat giving adequate exposure to the theory and applications of multiple integrals, vector calculus, analytic,analytic functions.

UNIT I

Multiple integrals: Double integration, Cartesian and polar coordinates, Change of orderof integration, Area as a double integral, Triple integration in Cartesian coordinates, Change ofvariables between Cartesian and polar coordinates and between Cartesian and cylindrical polarcoordinators.

(10)UNIT II

Vector Calculus: Gradient, divergence and curl, Line, surface and Volume integrals, Green’s, Gaussdivergence and Stoke’s theorems(Without proof) Verification of the above theorems and evaluation ofintegrals using them. (10)

UNIT IIIAnalytic functions:Function of a complex variable, Analytic function , Necessary conditions, CauchyRiemann equations in Cartesian and polar coordinates, Sufficient conditions(All without proof) Propertiesof analytic function. Determination of harmonic conjugate by Milne Thomson method, Conformalmapping az+b, z2, 1/z, ez, sin z, cos z, az+b/cz+d , Schwartz Christoffel transformation.

(10)UNIT IVComplex Integration:Statement and application of Cauchy’s theorem and Cauchy’s integral formula,Taylor and Laurent expansion, Singularities, Classification, Residues, Cauchy’s residue theorem, Contourintegration, Unit circle and semicircular contours(excluding poles on real axis) (10)

UNIT VLaplace Transform: Laplace Transform, Sufficient conditions, Transforms of elementary functions,Basic properties, Inverse transforms, Derivatives and Integrals of transforms, Transforms of derivativesand integrals, Convolution theorem, Transform of periodic functions, Laplace transform of Direct Deltaunit and step functions, Second shifting theorem, Application to solution of linear differential equation,constant coefficient, variable coefficient, simultaneous differential equations, Integral equations, initial andfinal value theorems.

(10)Text Book :Grewal, B.S., Higher Engineering Mathematics , Khanna Publishers, Thirty sixth edition,Delhi,2001.

Reference Books :

Veerarajan.T., “Engineering Mathematics”,(for First Year), “Second Edition, Tata McGraw –HillPub.Co.Ltd., New Delhi,2002.

Venkatraman, M.K. , Engineering Mathematics – Volume I,”Fourth Edition, The NationalPub.Co.,Chennai,2003.

Kandasamy.P., Thilagavathy.K., and Gunavathy.K.,”Engineering Mathemetics”Volume I, Fourth RevisedEdition, S.Chand& Co., New Delhi,2000.


Lecture



E22/ Q12– Materials Science(Common to B.E.(EEE),B.E.(E&I) and P.T.B.E. for all branches of Engineering)

Objective: To transform the basic principles and concepts to understand the utility of EngineeringMaterials operating electrical core devices in terms of their structure and properties.

To identify the fleet of scientific channels exploring the generation of high-tech electricalengineering materials.

UNIT IConducting Materials:Quantum Theory- Relaxation time, collision time and mean free path – Theory of electrical conductivityand thermal conductivity – Widemann Franz law, Simple problems. Examples, cu, Al, Ag- Structuralfeatures – Properties- applications.

Superconducting Materials:High Temperature Super Conducting Materials- Examples- applications- RVB theory. (10)

UNIT IIDielectric Materials

Types of polarization – Theory of Electronic & Ionic Polarisability - Frequency and Temperaturedependence of various polarization process - Internal field - Clausius Mosotti equation derivation –problems-Determination of dielectric const – Dielectric losses – Dielectric Breakdown – Ferro electricity –Ferro electric materials BaTio3 – Piezo electricity – Piezo electric materials, Quartz, Rocksalt, BaTio3.

(10)UNIT III

Semi conducting Materials:

Group IV elements- General properties- common dopants- Group VI elements- properties. Intermetalliccompounds. General features- properties- advantages: GaAs - InSb- Properties-Structural features-applications. Compound Semiconductors: Cds,CdSe, CdTe-General properties-Structural features-applications. Role of Oxygen in conductivity: ZnO, MgO - Structural features- advantages.

(10)

UNIT IVOptical Properties (Qualitative Treatment Only):Optical Absorption coefficient – Optical Absorption in metals, Insulators and Semiconductors – ColorCenters(F-centre, V-centre) – Optical Fibers -Glass Fibers and plastic Fibers – Characteristics- Structuralfeatures and Application.-Luminescence - Fluorescence – Phosphorescence. Different types of sensors:Photovoltaic, Photo emissive, Photo conductive- Principle, working, Uses.

(10)

UNIT VMagnetic MaterialsDifferent types of Magnetic Materials – Weiss Theory of Ferromagnetism –Ferro magnetic materials, Fe,Co, Ni, General properties-applications. Hard and soft magnetic materials- properties-Ferrites- properties-applications.

Smart MaterialsGeneration of Smart Materials – Sensors, Actuators and Processors – Application of Smart Materials –Shape Memory Alloys, Ni-Ti, copper based Alloys. (10) Text Books:

Charles Kittel, Introduction to Solid State Physics, John Wiley and Sons, 1997.M.V. Gandhi and S.S. Thompson, Smart Materials and Structures, Chapman & Hall, London, 1992.

Reference Books:M.A. Wahab, Solid State Physics, Narosa Publishing House, New Delhi

1999.S.O. Pillai, Solid State Physics, New Age International (P) Limited, 2000.Azaraf and Brophy, J. “Electronic Process in Materials”, McGraw Hill,1963.


Lecture



E23/Q13 C & C++ PROGRAMMING(Common to B.E(EEE)., B.E. (E&I) & PTBE (EEE))

Objective: To impart computer programming skill to the students.UNIT I

Introduction to C:Character set- C tokens - Key words and identifiers -Constants - Variables - Data types- Declaration ofvariables - Assigning values to variables - Defining symbolic constants -Arithmetic operators - Relationaloperators – Logical operators -Assignment operators – Increment and decrement operators – Conditionaloperators - Bit wise operators – Special operators – Arithmetic expressions –Evaluation of expressions –Precedence of arithmetic operators – Managing input and output operators

(4)

Decision making, Branching and Looping:IF statement- IF ELSE statement- Nesting of IF ELSE statement- IF ELSE IFLadder – Switch statement- conditional operator, GOTO statement- WHILE statement- DO statement-FOR statement- Jumps in loops. (6)

UNIT IIArrays and string Handling:Declaring and initializing - One dimensional arrays – Two dimensional arrays – Multidimensional arrays -string variables – Reading strings from terminal – Writing strings to screen –Arithmetic operation oncharacters- string handling functions. (6)

User-defined functions:Need for user defined functions - Category of functions- Nesting of functions- Recursion – functions witharrays (4)

UNIT IIIPointers:Understanding pointers – Accessing the address of a variable, declaring and initialising pointers –Accessing a variable – pointer increments and scale factor – Comparison of pointers with arrays, characterstrings, functions, structures (5)File management in C :

Defining and opening a file – closing a file –Input and Output operations on files – Random access to files-Error handling during I/O operations – Dynamic allocation of memories. (5)

UNIT IV

Structures and Unions:Structure definition –Giving values to members-Structure initialisation –Comparison of Structure variable–– Array of Structures - Array within Structures –Unions – Size of – Structures – Bit field.

(3)

Classes and objects:Introduction – Specifying an class - Defining Member Functions – Nesting of Member Functions PrivateMember Functions – Arrays within a class – Arrays of objects –Objects as Functions Arguments –Friendly Functions – Returning Objects Local classes concept of constructors and destructors.

(7)

UNIT VConcept of Operator Overloading:Introduction – Defining Operator overloading – Overloading Unary operators – Overloading Binaryoperators – Rules for overloading Operators – Type Conversions. Concept of Inheritance:Introduction – Defining Derived Classes – Single inheritance – Making a Private Member Inheritable –Multilevel Inheritance – Multiple inheritance – Hierarchical inheritance – Hybrid Inheritance Virtual Baseclasses – Member classes: Nesting of classes. (4) Pointers and Polymorphism:Introduction – Pointers to objects – this pointer – Pointers to Derived Classes – Virtual Functions – PureVirtual Functions (3)

Text Book:

1. E.Balagurusamy, Programming in ANSI C, II Edition, Tata McGraw Hill Publication Company,19922. E.Balagurusamy, Object Oriented Programming with C++, Tata McGraw Hill Publication Company,2001

Reference Books

1. Harvey M.Deitel & Paul J.Deitel, C How to program, 4/E, Prentice Hall, 2003 2. Brain W.Kernigan and Dennis M.Ritchie, The C Programming Language- ANSI C,Prentice Hall of India, 1990.3. Y.Kanitkar, Let us C, BPB Publications, 20014. Y.Kanitkar, Let us C++, BPB Publications, 2001


Lecture



E24/Q32 MECHANICS OF FLUIDS(Common to B.E.(EEE) and P.T.B.E. Degree)

Objective: To study the physical behavior of fluids, fluid systems and their laws.To determine the forces acting on fluids and to dy the resulting flow pattern.

UNIT IIdeal fluids- Real fluids – Mass density – Relative density – Viscosity- Viscosity- Surface tension – Vapourpressure- Problems (10)

UNIT IISteady and Unsteady flow – Uniform and Non uniform flow- Equation of continuity in one and threedimensions – Potential function- Steam functionEuler’s equation of motion – Bernoullis equation- Principle of linear momentum and angular momentum.

(10)

UNIT III Venturimeter- Orifice meter- Weir and notches – Basic fundamentals of Hydraulic machinery-Classification of Hydraulic machinery- Turbines- Impulse turbine and reaction turbines- Draft tubes-Velocity triangles-Governing of turbines. (10)

UNIT IVCentrifugal pump – Manometric head – Starting speed – Different efficiencies-Characteristic curves-Specific speed- Reciprocating pump- Discharge- Slip-horse power- Efficiency- Airversel advantages

(10)

UNIT VHydraulic accumulator- Intensifier – Hydraulic ram – Torque converter-Hydarulic Press-Principles-Mechanical advantage-Hydraulic accumulator-Principle-Capacity of Hydraulic accumulator-Powerdelivered by the accumulator-Differential Hydraulic accumulator-Principle-Total energy stored in theaccumulator-Hydraulic Intensifier-Principle-Pressure intensity-Hydraulic ram-Principle-Efficiency of thehydraulic ram-Hydraulic Torque Converter-working principles.

(10)

Text Books :R.K. Bansal - Fluid mechanics and Hydraulic machinery , seventh Edition , 1997.

Reference Books :

ModiP.N and SethS.M, Fluid mechanics, Twelth edition, Standard book house, Delhi,1998.Kumar.K.L.Engineering Fluid Mechanics, Eurasia Publishing house(P) Ltd., New Delhi,2004.Rajput.R.K.,Fluid Mechanics and Hydraulic Machines, First Edition, School & Company Ltd.,New

Delhi,1998.


Lecture



E25/Q14 ELECTRICAL CIRCUITS(Common to B.E. (EEE), B.E. (E&I) & PTBE (EEE))

Objective: The subject aims to provide the student with

An understanding of basic electric circuit elements.The ability to formulate and solve differentiate/algebraic equation describing the behavior of

the circuits.

UNIT IIntroduction to electric and magnetic circuits:

Electrical quantities - current, voltage, power , active and passive elements, Energy, Circuits and circuitelements - Voltage and current source - circuit laws - Ohm’s law, Kirchoff’s laws - Matrix representationand solution of DC networks - Node and loop analysis.Magnetic quantities – MMF, Flux and reluctance – Faraday’s law – Lenz’s law of induction.

(10)UNIT II

AC Fundamentals :Generation of alternating EMF- Average and RMS values - Peak and form factors of various waveforms -Alternating EMF applied to circuits involving R,L and C - Concept of Phasor representation of alternatingquantities power factor and power in AC circuits - Simple problems involving series and parallel circuits -Resonance in series and parallel circuits - Q of a coil -Simple locus diagrams - RL & RC, RLC circuits andLocus diagram applications - Bandwidth - Half power points. (10)

UNIT IIINetwork theorems and Transformation :Voltage and current source transformation - Star and delta transformation - Superposition, reciprocity,Thevenin’s, Norton and maximum power transfer theorems - Statement and applications. Principle ofduality and dual networks.

(10)UNIT IV

Response of Electric circuits :Concept of complex frequency - Pole - Zero plots, frequency response of RL, RC and RLC circuits -Transient response of RL, RC and RLC series and parallel circuits - Step and sinusoidal responses.

(10)UNIT V

Coupled Circuits:Coupled circuits - Coefficient of coupling – Self and Mutual inductance.Three phase circuits :Balanced circuits - Star and delta connected loads - Unbalanced circuits - solution ofunbalanced star and delta connected loads - Power measurement by two wattmeter method.

(10)

Text books :1. K.Nagappan, K.R.Mohanram, Electrical circuits, Edition 1996. 2. M.Arumugam, N.Premkumar, Electric circuits theory, Khanna publihsers, New Delhi. 1996

Reference Books:1. Joseph Edministar, Electric circuits, Schaum’s outline series, McGraw Hill International edition , 1996 .2. S.A.Boctor, Electrical circuit analysis, Prentice Hall International Inc. 1995

3. M.L.Soni, J.C.Gupta, Electrical circuit analysis, Dhanapat Rai & Sons, New Delhi, 3rd Edition,1976.

4. W.H.Hayt & J.K.Kemmerley, Engineering circuit analysis, McGraw Hill, New York , 19975. Theodore F.Bogart, Jr.Electric circuits, McMillan/McGraw Hill, 1992.6. Umesh Sinha, Electric circuits, S.Chand & Co., New Delhi, 3rd Edition, 1984.


Lecture



E26/Q15 ELECTRON DEVICES(Common to EEE, ECE ,CSE, IT, Mechatronics Branch & P.T.B.E.(EEE))

UNIT ISEMICONDUCTOR DIODE:

Semiconductor Diode – Ideal Diode – Resistance Levels – Equivalent Circuits – Transition and DiffusionCapacitances – Reverse Recover Time – Zener Diodes – Diode Arrays – Load line analysis – DiodeApproximations – Series Diode Configurations with DC inputs- Parallel and Series-parallel Configurations– Light Emitting diodes, Schottkey- varactor, power, Tunnel diode (10)

UNIT II:BJT AND BIASING:Transistor Construction – Operation – Common Base, Common Emitter, Common Collector configurations– Transistor amplifying action – Operation Limits – Transistor Testing – Operating Point – Fixed Bias –Emitter Bias – Voltage Divider Bias Circuits – Bias Stabilization-thermal runaway-Thermistor, Sensistorcompensation-heat sink (10)

UNIT IIIFETs AND BIASING:Field Effect Transistors – Construction and Characteristics Transfer characteristics – Relationships –Depletion Type MOSFET – Enhancement Type MOSFET – VMOS – CMOS – Fixed Bias, Self Bias,Voltage Divider Bias Configurations – P Channel FETs – Universal JFET Bias Curve

(10)

UNIT IVSPECIAL SEMICONDUCTOR DEVICES:Photo Diodes – Photo Conductive Cells – IR Emitters – Liquid Crystal Displays – Solar Cells – Thermistor– SCR – Operation, Characteristics and Applications – GTO-SCS- Schokley diode – Light activated SCR –DIAC – TRIAC – UJT – Photo Transistors – Opto Isolators – Programmable UJT – Charge coupled device– Piezoelectric Electric device (10)

UNIT VAPPLICATIONSHalf Wave Rectifier – Full Wave Rectifier – Capacitor Filter – RC Filter – Zener, Transistor VoltageRegulators – IC Voltage Regulators. Clipper – Clampers – Voltage Multiplier Circuit- Diode AND, ORGates – Transistor as Switch-Relay Driver – Voltage Level Indicator – FET VVR – Timer Network – FETin Fiber Optic System – SCR, TRIAC crow bar circuit, phase control circuit.

(10)

TEXT BOOK:Robert L. Boylestad, Louis Nashelsky “Electronic Devices and Circuit Theory”, Eighth Edition, PrenticeHall of India, 2002

REFERENCE BOOKS:Faculty of Network Institutions, “Analog Electronics”, Project Network Engineering Series,2004.Albert Paul Malvino, “Electronic Priciples”, Tata McGrawHill, 2002David A. Bell, “Electronic Devices and Circuits”, Fourth Edition, Prentice Hall India, 1999Millman and Halkias, “Electron devices and circuits”, Tata McGrawHill 2003Donald L. Schilling, “Charles BeloveElectronic Circuits: Discrete and Integrated” McGraw-Hill,2000Bernard Grob, “Electronic Circuits & Applications”, McGraw Hill, 1992

E27 ELECTRICAL FOUNDATION LABORATORY

Objective of the course: The students get exposure on the Basic Measuring Instruments applications andprecautions. In this course students are trained in the use fault finding in tube light and ceiling fan. Studentsare trained to select suitable rating electronic component for their future laboratory experiments.

1. Study and method of using voltmeters, ammeters, multimeters, LCR meters, CRO and Function

generators.

2. Winding and testing of inductors, mutually coupled coils.

3. Method of identifying the values and tolerance of Resistors, Capacitors, coils based on color codes

and testing

4. Verification of network theorems (Thevenin , Norton, Superposition , Reciprocity Theorems).

5. Series and Parallel Resonance.

6. Soldering and testing a given simple electronic circuits.

7. Study and method of using variable resistor (Rheostats, variac, capacitor, resistor and

inductor, load banks.

8. Study and method of making printed circuit boards (PCB)

9. Assembling and testing a fluorescent lamp circuit and fault finding.

10. Wiring and testing the functioning of staircase lamp circuit and fault finding.

11. Diagnosing simple faults and fan circuits.

12. Study of different types of fuses.

13. Identification and specification of different wires and cables.

14. Study of domestic lighting circuits and use of meggers.

The evaluation will consist of testing of

i) ability to identify components , devices and meters.

ii) ability to diagnose simple faults in electrical circuits.

iii) ability to assemble simple circuits and test.

E28 C & C++ PROGRAMMING LAB

(Common to B.E. (EEE), B.E. (E&I))

Objective: To impart computer programming skill to the students.

List of Experiments using C

1. Finding roots of given equation

2.Linear search

3. Bubble sort

4. Matrix Multiplication

5. String handling

6. Find the time between two keystrokes using time.h

7. Print the cursor location in a box at left top corner of screen

8. Display the status of printer.

9. Concept of files

list of Experiments using C++

1.Conept of Classes and Objects

2.Concept of operator overloading

3.Concpet of Inheritance & Polymorphism

E29 - WORK SHOP PRACTICE(Common to all branches of Engineering and Technology)

Objective: The students of all branches of engineering and technology would get exposure on the BasicWorkshop Practice. In this course students would be trained in the use and application of basic tradesmenskills such as Woodworking, Metal working, Plumbing, Casting, and Joining processes.

List of Exercises

I. FITTING (Any four exercise):

Fitting tools and practice.Preparation of Single step joint.Preparation of ‘V’ joint.Preparation of Gauge joint.Preparation of Taper step joint.Preparation of Half round joint.

II. CARPENTRY (Any four exercise)

Carpentry tools and practice.Use of different types of wood and adhesives.Preparation of Half joint.Preparation of Dovetail joint.Preparation of Mortise & tennon joint.Turning in wood lathe.

III. DEMONSTRATION ON TOOLS AND PRACTICE IN (Any four studies):WeldingSolderingBrazingFoundry and Moulding practice.Smithy forging.Plumbing

Terminal Examination: Students should be tested in fitting and carpentry trades.

III SEMESTER


Lecture



E31/Q21 MATHEMATICS- II(Common to B.E.(EEE),B.E(E&I) and P.T.B.E for all branches of Engineering)

Objective: An engineering student needs to have some basic mathematical tools and techniques whichemphasize the development of rigrous logical thinking and analytical skills. Based on this the course aims

at giving adequate exposure to the theory and applications of Fourier series, Fourier Transforms, PDE, andBVP.

UNIT IFourier Series: Dirichlet’s conditions, General Fourier series, half range sine and cosine series, Parseval’sidentity, harmonic analysis, complex form of Fourier series, double Fourier series, simple problems.

(10)UNIT II

Fourier Transforms:Fourier integral theorem, Fourier transform ,Fourier sine and cosine transforms –

Properties – convolution theorem – Parseval’s identify, Discrete Fourier Transform, Simpleproblems. .

(10)UNIT III

Partial Differential Equations:Formation, solution of standard types of first order equations, Lagrange’s linear equation,

Linear partial differential equations of second and higher order with constant coefficient.

(10)UNIT IV

Boundary Value Problems: Classification of second order linear partial differential equations, one-dimensional wave equation, one-dimensional heat equation , solution by Fourier series and Fourier transform method.

(10)UNIT V

Boundary Value Problems(contd.):Steady state solution of two dimensional heat equation in Cartesian coordinates, solution

by Fourier series and Fourier transform method. Laplace equation in polar coordinates, solutionby Fourier series method.

(10)Text Books :Grewal, B.S. , “Higher Engineering Mathematics” , Thirty Sixth Edition, Khanna publishers, New Delhi,

2001. Reference Books :Veerarajan.T.,”Engineering Mathematics”(For Semester III) Second Edition, Tata McGraw- Hill

Pub.Co.Ltd.,New Delhi,2002.Venkatraman, M.K.,” Engineering Mathematics” – Fourth Edition,The National Pub.co., Chennai 2003.Kandasamy, P., Thilagavathi, K., Gunavathi, K. , “Engineering Mathematics” –Fourth Revised Edition,

S.Chand & Co. New Delhi , 2000.


Lecture



E32/Q22 THERMAL ENGINEERING

(Common to B.E. and P.T.B.E Degree)Objectives:

To understand the basic principles and concepts of thermodynamics and heat transfer.To understand the applications of thermodynamics and heat transfer in thermal engineering

systems.UNIT I

Basic Thermodynamics:

Basic Concepts of Thermodynamics – definitions , systems, properties, processes, cycles, equilibrium –Zeroth Law – Energy interaction- First Law –Cycle, Processes– non-flow, steady flow – Second Law –Carnot Engine, Refrigerator, Heat pump. Entropy – Clausius inequality, principle of entropy increase, T-sDiagram (Qualitative treatment only)

(10)

UNIT IIAir Standard Cycles:Air standard cycle – Otto, Diesel and Dual cycles – thermal efficiency, mean effective pressure.Compressor :Reciprocating air compressor – Single stage – work done – volumetric efficiency –Multistage air compressor with Inter cooler – condition for minimum work (Simple problems).

(10)UNIT III

Steam Power cycle :Steam - formation and properties – Steam table and Mollier diagram- Ideal vapour cycle- thermalefficiency (Simple problems). High pressure water tube boiler- Benson, Lamont Boilers- Boiler mountingsand accessories. – Turbines – impulse, reaction and compounding – Surface Condenser (Qualitativetreatment only).Basic Heat Transfer :Modes of heat transfer – Principles – Conduction heat transfer through simple and composite system –plane wall and cylinders ( simple problems).Cooling of electrical machines- Transformer and Electroniccircuit boards (Qualitative treatment only)

(10)

UNIT IVInternal combustion engines:

Internal combustion engines – Two stroke and four stroke engines – Petrol and Dieselengine –Simple carburetor – Battery ignition system- Fuel injection pump-Fuel injector –– coolingand lubrication of IC engine – Performance calculation – mechanical, thermal efficiencies.

(10)

UNIT VRefrigeration Cycles : Carnot refrigeration cycle – Bell-Coleman cycle – Simple Vapour compression cycle – COP, Refrigeratingeffect (Simple problems)- Vapour absorption system – Refrigerants properties.Air Conditioning Systems:Air conditioning – definition, components, classification – Window airconditioners and Central air conditioning system (Qualitative treatment only).

(10)

Text Books :Nag P.K. , Basic and Applied Thermodynamics , Tata McGraw Hill Limited,2004.Raynar Joel ,Basic Engineering Thermodynamic in SI units , Third Edition, The English language book

society, 1998.Khurmi R.S., Steam Tables with Mollier Diagram, S.Chand & Company Ltd., New Delhi, 1998.

Reference Books:Yunus A. Cengel & Michael A. Boles, Thermodynamics an Engineering Approach, Second Edition, Tata

McGraw Hill, New Delhi, 2003.Saroa , Thermal Engineering, Dhanpat Roy & Sons. ,1992.Rajput R.K., Thermal Engineering, Laxmi Publications(P) Ltd., 2004


Lecture


Subject code E 33 -- 3 1 0 4

E33 DC MACHINES AND TRANSFORMERS

Objective: To impart knowledge about Transformers- Construction, working, regulation, load division,heating, cooling and DC machines- construction working characteristics, starters, speed control and testing.

UNIT I

Principle of operation, Construction of D.C. Machines, Main parts - EMF equation - Armature reaction,Commutation - Interpoles - Compensating winding.D.C. Generator : Types of generator - Characteristics of Self and Separately excited generators-applications. (10)

UNIT IID.C. Motor :Back EMF - Torque equation - Characteristics of D.C. series, shunt and compound motors -Applications - starters - speed control.

(10)

UNIT IIITransformer :Single phase transformer- principle of operation - transformation ratio - no load current -transformer on no load - Effect of resistance and reactance - Equivalent resistance and reactance -Equivalent circuit – Efficiency – Regulation - all day efficiency.

(10)

UNIT IVDivision of load between two transformers in parallel - Effect of inequality in turns ratio –Inrush currentPhenomenon-Methods of Cooling and Heating-Auto transformers - Three phase transformer winding -Transformation between two phase and three phase - on line and off line tap changing

(10)UNIT V

Testing of DC Machines :Losses - Efficiency, Swinburne’s test, Load test, Hopkinson's test, Separation oflosses.Testing of Transformers :No load test, Short circuit test, Sumpner's test, Polarity test, Temperature risetest.

(10)

Text Book:Nagrath, I.J. and Kothari D.P. , Electrical Machines , Tata Mc Graw Hill Publishing Company Ltd., New

Delhi , 1990Thereja B.L. , A Text book of Electrical technology, Volume –II, S.Chand & Co. Ltd. ,1998

Reference Books:Bhattacharya , P.S. , Electrical Machines , Tata Mc Graw Hill , 8th Reprint, 1997.

Say, M.G. , Alternating Current Machines , ELBS & Pitman , London ,IV Edition,1980.Alternating current Machines A.F.Puchsteint,TC-LLOYD, Third Edition , Asia Publishing House.


Lecture



E34/Q25 NETWORK ANALYSIS & SYNTHESIS

Objective: To impart the concepts of Network analysis and synthesis to the students.UNIT I

Network Topology : General network analysis - Elementary concepts of network topology – Graph - Tree – Co Tree -

Tree branch and link - Tie set schedule and cut set schedule - Loop current and node voltage methods -Parameter matrices - Equilibrium equations.

(10)UNIT II

S - Domain Analysis:S - domain network - Driving point and transfer impedances - Solutions of simple network

equation - Initial condition in networks - Laplace transformations - Transformed circuits - Poles and zerosof a network function - Time response from pole - zero plot. (10)

UNIT IIINetwork Parameters:

Characterisation of two port networks in terms of Z ,Y, h, ABCD and image parameters -Equivalent T and Π circuits - Relation between two port network parameters - Analysis of T, bridged T ,ladder and lattice networks using parameters - Transfer function of terminated two port networks .

(10)UNIT IV

Elements of Network Synthesis:Realizability of one port - Hurwitz polynomials – positive real functions (p.r.f.) - Necessary and

sufficient conditions of p.r.f. - Testing of a p.r.f - Minimum p.r.f. - Properties of driving point impedances.Synthesis of driving point impedance Foster form - Synthesis of purely reactive networks in the

Cauer form, continued fraction expansion.

(10)UNIT V

Design of Filters:Types of filters - Constant K - m derived and composite filters - Terminating half sections -

frequency and impedance scaling - Frequency transformation active filters - Sensitivity - Single amplifierfilters - All pass and notch filter - Butter worth filter - Higher order filters.

(10)

Text Books :Sudhakar A and Shyam mohan S P, Circuits and Networks Analysis and synthesis, Tata Mc Graw Hill

Publishing Company Ltd.,1994. Umesh Sinha - Circuit theory - Satya Prakashan, New Delhi - 1988.

Reference Books: 1. F.F. Kuo , Network analysis and synthesis , John Wiley & Sons , 1995 2. Van Valken Barg , Network analysis , John Wiley & Sons , 1996.

3. Mital , G.K. - Network analysis - Khanna Publishers, New Delhi, 1974. 4. Vasudev K, Aatre - Network theory and filter design, Eastern wiley Publishers , 1993.


Lecture



E35/Q23 ELECTRONIC CIRCUITS

(Common to B.E. (EEE & E&I) and P.T.B.E Degree)

Objective: - To impart knowledge about the basic Electronic Circuits, their operational characteristics andtheir applications to the students.

UNIT ISingle phase half wave and full wave rectifier, three phase bridge rectifier using diodes- Ripple factor,rectification efficiency and transformer utilization factor - Rectifier with inductive load

(10)UNIT II

Analysis of common source, common drain and common gate FET amplifiers using FET small signalmodel - Multi stage amplifiers - R-C coupled , Transformer coupled and Direct coupled amplifiers - Gainand bandwidth of multistage amplifier-Darlington connection.

(10)UNIT III

Classification of Power amplifiers - Class A direct coupled and transformer coupled amplifier – Class Bamplifier - Push pull connection - Complementary symmetry configuration - Expression for maximumpower conversion efficiency with class A and class B operation - Non linear and cross over distortion -Distortion calculation – Class D amplifier

(10)UNIT IV

Feedback amplifiers - Types of feedback-positive, negative, series, shunt, current and voltage feedback-Effect of feedback on input impedance, output impedance, gain stability, bandwidth and distortion ofamplifier - Principles of regulated power supply - Series and shunt type voltage regulator - Protection ofregulator against short circuit. (10)

UNIT VOscillators -Barkausen's criteria – Hartley and Colpitts Ocillator- Wien's bridge oscillator - Influence ofloading , Q of tank circuit and ambient temperature on frequency stability - Crystal oscillator - Astable ,mono stable and bistable multivibrators - Schmitt trigger- Integrator and Differentiator - Clipper &Clamper circuits.

(10)

Outcome: After the completion of the course, the students could have learnt about the basic ElectronicCircuits, their operational characteristics and their applications.Text books:Robert Boylestad & Louis Nashelsky , Electronic Devices and Circuits, 5th Edition, Prentice-Hall of India Private Ltd , New Delhi, 1996Millman and Halkias - Electronic devices and circuits, Tata McGraw Hill publishing company ltd., 1996.Reference Books :

1. R.S.Sedha, A text book of Applied Electronics , S.Chand & Company Ltd.,20042. Albert Paul Malvino , Electronic principles, 5th Edition , Tata McGraw Hill

publishing Co.Ltd., 1997. 3. Allan Mottershead , Electronic Devices and Circuits - an Introduction, Prentice Hall of India Pvt. Ltd.,

1997.4. David A. Bell , Electronic Devices and Circuits , Prentice-Hall of India Private Ltd, New Delhi, 1998.5. G.K. Mithal - Electronic devices and circuits – Khanna publishers, 1997.


Lecture



E36/Q24 ENGINEERING ELECTROMAGNETICS(Common to B.E.(EEE) and P.T.B.E Degree)

Objective: To impart fundamentals of vector algebra, electric and magnetic field (both static and timevarying) applicable to electrical engineering. To expose the students to the concept of capacitance.Inductance, magnetic/conducting/Insulating materials and its boundary conditions in the electromagneticfields and to the fundamentals of wave propagation.

UNIT IVector Analysis: Scalars – Vectors – Vector Algebra – Vector components – Unit vectors – Dot product – cross product –Cartesian, Cylindrical and Spherical coordinate systems.Coulomb's law and Electric field intensity: Electric charge - Coulomb's law - Field due to point charge –line charge, surface charge and volume charge distribution - Stream lines - Sketches of fields.

(10)UNIT II

Electric flux density, Gauss's law and Divergence: Electric flux density - Gauss's law - Application ofGauss’s law – Divergence -Divergence theorem.Potential and Energy: Potential difference – Potential – conservative property – Potential gradient –Dipole, Dipole Moment – Energy density in Electrostatic field. (10)

UNIT IIIConductors, Dielectrics and Capacitors:Current, Current density – Continuity of current – Conductors - Semiconductors – Dielectric materials –Boundary conditions at the interface of conductors – Capacitance – Multiple dielectric capacitors – Energystored in a capacitor – Boundary conditions at the interface of Dielectrics.

(10)UNIT IV

Steady Magnetic Fields:Biot-Savart's law - Ampere's circuital law - Curl and Stoke's theorem - Magnetic flux – Magnetic fluxdensity – Scalar & Vector magnetic potential Forces and Torque in Magnetic fields :Forces – Torque - Magnetic materials – Magnetic boundary conditions – Magnetic circuit – Inductanceand Mutual Inductance – Energy stored in Magnetic field.

(10)UNIT V

Time varying fields - Max well’s equation :Faraday's law - Displacement current - Maxwell's equation inpoint form and Integral form.Electromagnetic waves (Elementary ideas only) :Introduction – Wave equations – Poynting vector –Standing – wave ratio – Propagation – Skin Depth.

(10)

Text Book :

W.H.Hayt and John A. Buck - Engineering Electromagnetics – Tata McGraw Hill Publishingcompany limited, New Delhi, 7th edition, 2003.

Reference Books :

Joseph, A. Edminister – Theory and problems of Electromagnetics – Schaum’s series, McGraw HillInternational Edition, Singapore, 2nd Edition, 1993.

Korada Umashankar – Introduction to Engineering Electromagnetic fields – World Scientific publishingco. Pvt. Ltd., Singapore, 1st Edition, 1989.

K.A. Gangadhar - Field theory - Khanna Publishers, New Delhi, 13th Edition, 1997.

E37 DC MACHINES AND TRANSFORMERS LABORATORY

Objective: To conduct load test and predetermination test on DC Machines and Transformers and hence tocheck the performance of DC Machines and Transformers.

1. Magnetisation characteristics of a D.C. shunt generator.2. Load characteristics of a D.C. series generator.3. Load characteristics of a compound generator.4. Predetermination of efficiency of a D.C. shunt motor.5. Load test and performance characteristics of a D.C. shunt motor.6. Load test and performance characteristics of D.C. series motor.7. Load test and performance characteristics of D.C. compound motor.8. Speed control of a D.C. shunt motor.9. Regenerative test on a pair of D.C. shunt machines (Hopkinson's test).10. Predetermination of efficiency of a given single phase transformer.11. Predetermination of regulation and also the equivalent circuit of a single phase transformer.12. Load test on a single phase transformer.13. Regenerative test on a pair of single phase transformers (Sumpner's test).14. Three phase transformer connections.15. Scott connection of transformer.16. Parallel Operation of Transformers.17. Characteristics of Welding Transformer.

E38 FLUID MECHANICS AND THERMAL ENGINEERING LABORATORY

Fluid Mechanics lab :1. Application of Bernoulli's theorem.

2. Coefficient K of venturimeter.3. Coefficient of discharge of orifice meter4. Brake test on Pelton turbine and specific speed.5. Brake test on Francis Turbine and specific speed.6. Centrifugal pump 5" * 4", I-characteristic curves.7. Performance Test on reciprocating pump.

Thermal Engineering Lab : Objective: To determine experimentally the performance of thermal engineering systemsPerformance test on a four stroke diesel engine using fuel consumption trial Performance test on a multi cylinder diesel engine Heat balance test on four stroke engineVolumetric efficiency test on four stroke engine.Valve timing diagram of a four stroke and port timing diagram of a two stroke engine.Test on reciprocating air compressorPerformance test on refrigeration tutor

E39-PROFESSIONAL ETHICS

(Common to all branches of Engineering and Technology)

Objective: To discuss and hence to make the students aware of the different ethical and moral issuesand dilemmas, codes of conduct for engineers in the society, responsibilities and rights, and moralities inan organization.

UNIT I

Engineering Ethics- Sources of Engineering Ethics, Variety of moral issues- Types of inquiry- Moraldilemmas. Moral Autonomy-Kohlberg’s theory-Consensus and Controversy-Professions andProfessionalism-Professional ideals and virtues-Theories about right action-Self-interest-Customs andreligion-Use of Ethical Theories

(9)UNIT II

Engineering as social Experimentation- Engineers as responsible experiments- Codes of Ethics- BalancedOutlook on law

(9)

UNIT IIIEngineers’s responsibility for safety Safety and risk- assessment of safety and risk- risk Benefit Analysis –Reducing risk- The threee Mile Island and Chernbyl Case Studies

(9)UNIT IV

Responsiblity and rights Collegiality and loyalty- Respect for Authority- Collective Bargaining-Confidentiality,Conflicts of Interest- Occupational Crimes- Professional Rights- Employee Rights-Discrimination. (9)

UNIT VGlobal issues Multinational Corporations- Environmental Ethics- Computer Ethics- WeaponsDevelopment, Engineers as Managers, Consulting Engineers- Engineers As Expert Witness and Advisors-Moral Leadership- Sample code of conduct.

(9)

Reference Book:

Ethics Engineering- Mike Martin and Roland Schinzinger, Mc Grawhill New York, 1996.Engineering Ethics-Charles D Fledderman, Prentice Hall, New Mixicok,1999.

IV SEMESTER


Lecture



E41/Q31/EI41- MATHEMATICS – III

Objective: The objective of the course is to implement the foundation of Mathematical concepts used inElectrical engineering theories and problems. This course aims at giving exposure to Probability Theory,Theory of Sampling, Statistical Quality Control, Difference Equation, Z-transform and Simulation.The topics have been designed to use the mathematical tools and techniques for solving problems inElectrical engineering and for the development of logical thinking and analytical skills.

UNIT IProbability distribution: Geometric distribution –Hyper geometric distribution- Uniformdistribution-Exponential distribution-Normal distribution- Gamma distribution-Weibulldistribution(Mean, Variance, moment generating function, simple problems) (10)

UNIT IITests of Hypothesis: Basic concepts of testing Hypothesis, Tests of significance for largesamples-Student’s distribution-Snedecor’s F distribution- Chi-square distribution test of goodnessof fit and Independence of Attributes. (10)

UNIT IIIDifferential Calculus:Finite difference- operators-relation between them - solution of difference equation.

Z transformation:Definition- Transform of elementary functions- shifting theorems-Initial and final value theorms-Inverse transform- -Convolution theorem-Application to difference equation. (10)

UNIT IVQuality Control: Introduction-control charts for variables(x & R chart and s-chart) Control chartsfor attributes(p-chart, np-chart and c-chart) (10)

UNIT VSimulation : System simulation, Random number, Random number generation, linear &multiplicative con gruential techniques, Goodness of fit & Chi-square test, Kolmogorov test,Poker test, Random variate generators

(10)Text Books :Veerarajan.T, “Probability Statistics and Random Processes”, second Edition, Tata Mc Grawhill Pub-Co.,

Ltd., New Delhi2003(For units I ,II, IV).Grewal,B.S., Higher Engineering Mathematics, Khanna publishers, New Delhi,2004(Unit III)Jerry Banks, John S.Carson, Barry I.Nelson. “Discrete Event system Simulation “, Prentice Hall of India,

2000.(For Unit V)Reference Books:P.Kandasamy,K.Kalavathy &K.Gunavathy,”Probability,Random Variables and Random Processes”, S.

Chand & Co.2004S.C.Gupta- Fundamentals of statistics, Himalaya publishing House, Delhi,1988.S.C.Gupta- Fundamentals of Applied Statistics- Sultan Chand & Co., New Delhi,1988.


Lecture


Subject code E 42 Q33 3 1 0 4E42/Q33 AC MACHINES

(Common to B.E.(EEE) and P.T.B.E Degree)

Objective: To impart knowledge about three phase induction motor, alternator, synchronous motor, singlephase induction motors and about special machines.

UNIT I

Three phase induction motor : Constructional features of 3 phase squirrel cage and slip ring inductionmotors - Rotating magnetic field - Torque production - Phasor diagram - Analysis of performancecharacteristics by equivalent circuit and circle diagram. (10)

UNIT IIThree phase Induction motor starting methods - Starters, speed control by rotor resistance, Polechanging, change of supply frequency, injection of EMF in the rotor circuit, Single phase motors : Doublefield revolving field theory - Cross field theory, split phase induction motor (resistance & capacitancetype), shaded pole, repulsion, A.C. series, Universal motor.

(10)UNIT III

Synchronous generator: Types and construction - EMF equation - Synchronous reactance and impedance- Voltage regulation by EMF, MMF, ZPF and ASA methods, load characteristics, salient pole machine.Blondel two reaction method for salient pole machine, two reaction theory - Slip test for the measurementof Xd and Xq - Phasor diagram using Xd, Xq - losses and efficiency. (10)

UNIT IVSynchronous motor : Torque and power relations - Phasor diagrams - V and inverted V curves - Startingmethods of synchronous motor - Excitation of synchronous motor - Use of synchronous motor as phase

modifier – Condition for stability - Hunting and prevention of hunting. Parallel operation of synchronousmachines – Synchronising methods - Use of synchroscope - Power output of alternators in parallel. (10)

UNIT VSpecial Machines : Principles of operation - Constructional features and performance characteristics,Linear induction motor - Induction Generator, Hysterisis motor,Reluctance motor-Brushless DC motor-Three phase commutator motor, servomotors and stepper motors. (10)

Text Book:Nagrath.I.J. and Kothari D.P. Electrical Machines, Tata Mc Graw Hill Publishing Company Ltd.,New

Delhi,1990.Theraja B.L. A text of Electrical Technology, Volume-II, S.Chand & Co Ltd, 1998.

Reference Books:1. Bhattacharya,P.S., Electrical Machines, Tata Mc Graw Hill, 8 th Reprint,1997.2. P.S.Bimbhra- Electrical Machines , Khanna Publishers, 1984.3. Say.M.G.Altenating current Machiens,ELBS & Pitman, London, IV Edition, 1980.


Lecture


Subject code E43 Q34 3 1 0 4

E43/Q34 COMPUTER ARCHITECTURE(Common to B.E.(EEE) and P.T.B.E Degree)

Objective: To introduce the function of various hardware ,CPU organization ,Memory & Input-outputorganization in the computer and the concept of designing a basic computer to the students.

UNIT I

Logic gates – Boolean Algebra – Map simplification – Combinational circuits – Flipflops – Sequentialcircuits – Decoder – Multiplexer – Register – Binary counter – Static and Dynamic RAM – ROM – Typesof ROM-PAL and PLA.

(10)

UNIT IIData representation – Data types – Complements – Fixed point representation – Floating

point representation – Gray code – Error detection code using parity bit – Register transferlanguage – Register transfer – Bus and memory transfer – Arithmetic, logic and shift microoperations and their hardware implementation – Arithmetic logic shift unit . (10)

UNIT IIIInstruction codes – Computer registers – Computer instructions – Timing and control –

Instruction cycle – Memory reference instructions – Input-output and interrupt – Design of basiccomputer – Design of accumulator logic – programming the computer –machine language –Assembly language – Assembler. (10)

UNIT IVCPU organisation – General register organisation – Stack organisation – Instruction

format – Addressing modes – Micro programmed control – Control memory – addresssequencing. (10)

UNIT VMemory hierarchy – Main memory – auxiliary memory – Associative memory – Cache memory – Input-output organisation – Asynchronous data transfer – modes of data transfer – Priority interrupt – DMA

(10)Text Book :M.Morris Mano - Computer System Architecture – Third Edition – PHI pvt. Ltd., 2002.

Reference Books :S.Tarenbaum - Structured computer organisation – PHI pvt. Ltd., New Delhi, 1997.V.Carl Hamacher, Zvonko G. Vranesic and Safwat G. Zaky – Computer Organisation – McGraw Hill

Companies Inc., 1996Thomas C. Bartee – Digital Computer fundamentals – McGraw Hill Book company,1996.


Lecture



E44/Q35 LINEAR AND DIGITAL INTEGRATED CIRCUITS(Common to B.E.(EEE) and P.T.B.E Degree)

Objective: To impart knowledge about the basic concepts of the Linear and Digital Integrated Circuits andtheir applications.

UNIT I

Introduction: (periods)Integrated circuits - Classification - Thin and thick film techniques - Monolithic techniques -

Epitaxial, Photolithography, Metalisation, Diffusion systems, Surface passivation and isolation - Integratedresistors, capacitors and inductors - Bipolar and MOS devices fabrication techniques. (10)

UNIT IIOperational amplifiers:

Basic concepts - differential amplifiers - ideal op-amp - parameters of op-amp - Basic op-ampapplications - Scale changer, Inverting and non-inverting amplifier, summer and subtractor, multiplier anddivider, differentiator, integrator and instrumentation amplifier.

(10)

UNIT IIIOp-amp Circuits:

V/I and I/V converters - Precision rectifier - Clipper and clamper - Sample and hold circuits - Logand antilog amplifiers - Comparator - Regenerative comparator - Square wave generators - Triangular andsawtooth wave generators - Sine wave generators -

(10)UNIT IV

Other linear IC's:IC voltage regulators – LM317 general purpose voltage regulator – Switching Regulator - 555

timer IC - Free running and astable modes of 555 - Phase locked loops - Applications of PLL.

(10)UNIT V

Digital IC:Digital IC families – TTL, MOS and CMOS - Input and output circuits - Fan out and Fan in-

Noise margin - Power consumption – Open collector output- Interfacing TTL to CMOS and CMOS to TTL–Shift Registers-Asynchronous and Synchronous counters- Tristate, Totem pole- D/A converters- A/Dconverters.

(10)

Text Books:1. Roy choudhury and shall Jain, Linear Integrated circuits,Wiley Eastern Ltd, 20032. Albert Paul Malivino and Donald P.Leach, Digital Principles and Applications, Tata McGRaw Hill Publishers,1996.Reference Books:1. K.R.Botkar, Integrated Circuits,Khanna Publishers,19932. Jacob Millman & Christos C.Halkias- Integrated electronics- Tata McGraw Hill Internationaledition,1992.


Lecture



E45/Q51 LINEAR CONTROL SYSTEMS(Common to B.E.(EEE) and P.T.B.E Degree)

Objective: To impart knowledge about basic concepts of Control System, Analysis of Control Systemsusing Transfer Function approach and state space approach.

(periods)UNIT I

Overview of Control systems ; Mechanical Translational and Rotational systems –Transfer function-Analogy with electric systems; Simple thermal and hydraulic systems; Effects of feed back; Gyroscope;Block diagram; Signal flow graph; (10)

UNIT IITime domain analysis - Standard test signals; Response of First order system for different inputsignals; Step response of second order system; Type and order of the systems; Static andgeneralized error coefficients; Introduction to PI,PD, and PID controllers.

(10)

UNIT IIIStability – Conditions for stability; Routh- Hurwitz stability criterion- relative stability assessment usingRouth-Hurwitz criterion; Construction of root locus diagram – Angle and magnitude criterion; RootContours. (10)

UNIT IVFrequency Response- Correlation between time and frequency domain specifications; Polar plots; Bodeplots- relative stability assessment and Experimental determination of transfer function; Constant M and NCircles- Nichol’s chart; Nyquist stability criterion-Relative stability. (10)

UNIT VState and state variables – state space representation; State models for simple electrical and mechanicalsystems; Physical, phase and canonical variables; Eigen values and vectors; Solution of state equationthrough Laplace transform and through State transition matrix; Controllability -Observability.

(10)Text Book:

I.J.Nagrath and M.Gopal - Control systems Engineering - Wiley Eastern Ltd., 1993.

Reference Books:

1. K. Ogata - Modern Control Engineering - Prentice Hall of India Pvt. Ltd., 1982.2. J.D. Azzo and C.H. Houpis - Linear control system analysis and design - McGraw Hill Book Co., 1988.


Lecture



E46/Q52 MEASURING INSTRUMENTS


Objective: To impart knowledge about various electrical and electronic measuring devices, theirconstruction, working principle and applications to the students.

UNIT IDefinitions of accuracy, precision, errors, types of errors - Systematic and random errors - Evaluation ofmaximum error - Statistical analysis of error - Sensitivity of meters.Principle of operation and construction of PMMC , MI meters. Principle of operation and construction ofDynamometer, Induction, and Rectifier type Instruments (10)

UNIT IIMeasurement of R, L&C - Wheatstone bridge, Kelvin, Maxwell, Anderson and Schering bridges.Power measurement - Dynamometer and Induction type wattmeters - Energy meters - Use of instrumenttransformers - Energy meter testing - Trivector meter - Maximum Demand indicator, Power factor meter.

(10)UNIT III

Ballistic and vibration type galvanometers - Flux meter - BH curve and permeability of ring and barspecimens - Iron loss measurement by magnetic squares.Principles and constructional details of general purpose CRO’s , Storage CRO’s, Multiple trace digitalCRO- Use of CRO for frequency and phase measurement. (10)

UNIT IV

Sensors and transducers: Introduction – Classification – Resistive, Inductive and capacitive transducers -Potentiometers, strain gauges, LVDT, Piezo electric, Electro magnetic, Thermo electric, Photo electric,Optical encoders, digital encoders. (10)

UNIT VSynchroscope, Frequency meters, Phase sequence indicator - Multimeter - Megger -. Digital volt meter .Frequency, time interval and phase meters. - Signal generator - Function generator - Spectrum analyser –Strip chart recorder, X – Y recorder, magnetic tape recorder. (10)

Text books:1. Sawhney, A.K., A course in Electrical and Electronics measurements and instrumentation, Dhanpat

Rai and sons. 2. William David Cooper and Albert D.Hel Frick, Electronic instrumentation and measurement

techniques, Prentice Hall of India Pvt. Ltd., 1986.

Reference Book:1. Golding, EW & Widdis F.G., Electrical measurements and measuring Insruments Wheeler and Co.,5

th edition.2. Umesh G.Sinha, Electrical and Electronics Measurement and Instrumentation,

Vanitha Printer, 1987.E47 AC MACHINES LABORATORY

Objective: To conduct load test and predetermination test on Induction Motor and Alternator and alsoParallel operation of Alternators and hence to check the performance of various AC Machines.

Equivalent circuit of a polyphase induction motor and circle diagram.

Performance characteristics of a three phase induction motor.

Speed control - Pole changing.

Study of starters for polyphase induction motors.

Performance characteristics of single phase induction motor.

Induction generator.

Predetermination of regulation of and alternator by EMF and MMF method.

Predetermination of regulation of and alternator by Potier triangle method.

Load test on alternator and determination regulation.

Slip test for the determination of regulation of salient pole alternator.

Parallel operation of alternator.

'V' curves of synchronous motor.

Speed control of Induction motors with various frequency

E48 ELECTRONIC DEVICES & CIRCUITS LABORATORYObjective: To understand the Characteristics of various semi conductor devices and construction ofdifferent electronic circuits using the above devices.

Characteristics of Semiconductor diode

Characteristics of BJT in CE configuration

Characteristics of BJT in CB configuration

Switching characteristics of transistor

Switching Characteristics of SCR , DIAC , TRIAC

UJT as relaxation oscillator

Characteristics of MOSFET

Switching Characteristics of IGBT

Optocoupler and LDR characteristics

Full wave rectifier with and without filter

RC coupled amplifier

Clipper and Clamper

Zener voltage regulator

Series voltage regulator

Class A and Class B amplifiers

E49/EI49-Professional CommunicationObjective:

To develop knowledge, skills and attitudes needed for Professional communication by the use ofmethods such as lectures, small group activities, quizzes and language lab.

UNIT - I1. Technical Report Writing

Technical reports: Definition, Types. Audience, Purpose; Unity; Coherence; appropriateness; Brevity;clarity; Selection of project topic; Information sources, Thesis statement; Method of data collection, Use of

Graphics, Analysis of data, Language, Bibliography; Margin; Line Space; Font size, Punctuation;Symbols; abbreviations, Units of Measurement; Mathematical expressions. (8)

UNIT - II

2. Group Discussion and Personal Interview:Task and maintenance Roles, Development of interaction skills, Asking for and giving opinions,

agreeing, disagreeing, turn-taking, interrupting politely, listening actively, being sensitive to groupdynamics.

Realistic Self Assessment, Goal –setting, Common Interview Questions, Personal appearance,Body Language, Etiquette, Fluency, Resume writing.

(8)UNIT - III

3. Understanding Work Environment:Company Structures, Systems, Processes, Products, Services: Context of Business and Commence:Business plans, meetings, minutes, letters, phone calls. (8)

UNIT - IV4. Preparation for Competitive Examinations:TOFEL, GRE, GATE, CAT, IAS, and BEC examinations, Objectives and formats of examinations, modeltests. (8)

UNIT - V5. Some common Evaluation Methods:Using Computers to take tests, English related examination items, Synonyms, Antonyms, Spotting Errors,Sentence Completion, Verbal Analogy, Verbal Reasoning, General Awareness and General Mental Ability,Listening comprehension, Group Discussion, Personal Interview, Project Report. (8)

Text Book:Aggarwal.R.S. and Monika Aggarwal, “Objective General English”, Sultan Chand and Co.,NewDelhi,1999.Reference Books:Mitchell, John.”How to write Reports”,New Delhi, Rupa and Co., 1974.

Evaluation PatternContinuous Internal Assessment and Single Terminal Examination to be given equal weight age 50:50Items to be tested as per the unit 5 in the syllabus.

Method/ Object of Assessment Continuous InternalAssessment

Terminal Assessment

Mini Project Report

Short Speeches

Group DiscussionPersonal Interview

Quiz vocabulary, syntax, verbal analogy&Reasoning, Mental Attitude, General awareness.Listening Comprehension

V SEMESTER


Lecture



E51/Q41/EI51-NUMERICAL METHODS(Common to all branches of Engineering and P.T.B.E Degree)

Objectives:The objective of this course is to make the students appraise the complete procedure forsolving different kinds of problems that occur in engineering numerically and to examine variousnumerical methods and their uses.

UNIT ICurve fitting and theory of equations: Empirical laws and curve fitting – linear law – method of groupaverages – principle of Least squares – fitting straight line, parabola, exponential curve – method ofmoments - theory of equations– Relation between the roots and coefficients of the polynomial equation –equations with real coefficients and imaginary roots – equations with rational coefficients and irrationalroots – symmetric functions of the roots – Transformation of equations – Reciprocal equations.

(10periods)

UNIT IISolution of equations: Numerical solution of algebraic and transcendental equations- The Bisectionmethod – Iteration method –Regula Falsi method – Newton-Raphson method – Horner’s method –Solution of Simultaneous Linear Algebraic equations-Gauss elimination method- Gauss-Jordan method –Crout’s method – Gauss Jacobi method-Gauss Seidel method – Relaxation method.

(10periods)

UNIT IIIDifference calculus: Finite differences – Forward , backward and central difference operators – shiftingoperator – Properties and Relation between operators – Interpolation – Newton’s forward and backwarddifference interpolation formulae – Gauss forward and backward difference interpolation formulae –Bessel’s, Laplace and Everett formulae. (10 periods)

UNIT IVInterpolation, numerical differentiation and integration: Interpolation with unequal intervals - Divideddifferences – Newton’s divided difference formula – Lagrange’s interpolation formula – inverseinterpolation - Numerical differentiation - Newton’s forward and backward differentiation formulae –Numerical Integration– The trapezoidal rule – Simpson’s 1/3rd and 3/8th rule – Difference equations –Solution of Linear homogeneous difference equation with constant coefficients.

(10periods)

UNIT VNumerical solution of differential equation: Numerical solutions of ordinary differential equations –Taylor series method – Picards method – Euler’s methods – Fourth order Runge Kutta method –Milne’sand Adam’s Predictor – Corrector methods – Numerical solution of partial differential equations –classification of partial differential equations – Solution of elliptic equatby Leibmann’s method – Solutionof parabolic equation by Bender- Schmidt Solution of hyperbolic equation. (10 periods)

Mat Lab: Tool Kits-The course content will be augmented by the usage of Mat Lab tool box.

Text Book

1. Curtis F. Gerald, Patrick O. Wheatly, “Applied Numerical Analysis”, Sixth Edition, Pearson Education, New Delhi, 2002.

Reference Books

1. John H. Mathews, Kurtis D.Fink., “Numerical methods using MATLAB”, Prentice Hall, 1998. 2. Rober J. Schilling, Sandra L. Harries, “Applied numerical methods for Engineers using MATLAB and C”, Thomson Brooks / Cole, 1999. 3. Jain. M.K, Iyengar, S.R.K, Jain, R.K, “Numerical methods for Scientific and Engineering computation”, fourth edition, New Age International Publishers, New Delhi, 2003. 4. Sastry, S.S, “Introductory methods of numerical analysis”, Prentice Hall of India, 2001. 5. Kandasamy. P, Thilagavathy. K and Gunavathy.K, “Numerical methods”, S.Chand and Company Ltd, New Delhi, 2003.

Specialization

B.E. EEE P.T.B.E.Electrical

Lecture



E52/Q42-MICROPROCESSORS(Common to B.E.-EEE, ECE, CSE and P.T.B.E Degree)

Objective: To understand the basic concepts of 16 and 32 bit Intel Microprocessors with theirarchitectures, ISA and I/O interfaces (for a PC based system)

Unit IINTEL 16 Bit Microprocessors - Register Organization of 8086, Architecture, Physical Memoryorganization, I/O addressing capability, Special Processor Activities.

8086 Instruction Set and Assembler Directives: Addressing Modes of 8086, Instruction set of 8086,Assembler Directives and Operators. (10 hours)

Unit IIThe Art of Assembly Language Programming with 8086 -A Few Machine Level Programs using ALP8086, Programming with an Assembler, Assembly Language example programs.Special Architectural Features and Related Programming: Introduction to Stack, Stack Structure of8086, Interrupt and Interrupt Service Routines, Interrupt Cycle of 8086, Non-maskable Interrupt, Mask-able Interrupt (INTR), Interrupt Programming ( Software Interrupts), MACROS

(10hours)

Unit IIIBasic Peripherals and their Interfacing with 8086 - Interfacing I/O Ports, PPI ( Prog PeripheralInterface( 8255), Modes of operation of 8255. Special Purpose Programmable Peripheral Devices and their Interfacing - Prog Interval Timer(8253), Prog Interrupt Controller (8259) INTEL 32 Bit Microprocessors - 80386 DX –Salient Features of 80386 DX, Architecture of 80386,Register Organization of 80386, Addressing Modes, Data types of 80386, Real Address Mode of80386, Protected Mode of 80386, Segmentation, Paging.

(10hours)

Unit IVExploiting Memory Hierarchy - The Basics of Cache, Measuring and Improving Cache Performance ,Virtual Memory, A common framework for Memory Hierarchies, The Pentium P4 Memory hierarchy.Storage Networks and Other Peripherals - Introduction, Disk Storage and Depend-ability, Reliabilityand Availability, RAID, Buses and other Connections between Processors, Memory and I/O devices – BusBasics: Universal Serial Bus (USB 2.0), PCI, LPT Interface ( Line-printer parallel port) , AcceleratedGraphics Port (AGP), The Buses and Networks of the Pentium 4, Memory controller (North Bridge) I/Ocontroller (South Bridge) based Intel chipsets, Interfacing I/O devices to the Processor, Memory andOperating System (10hours)

Unit VAccessing and Understanding Performance - Introduction, CPU Performance and its factors,Evaluating Performance , Two SPEC Benchmarks and the Performance of recent Intel Processors. Enhancing Performance of Pipelining - An overview of Pipelining, Pentium 4 Pipeline

IA-32 based advanced Microprocessors: PENTIUM onwards - Salient features of PENTIUM, A fewrelevant concepts of Computer Architecture, System Architecture, Branch Prediction , EnhancedInstruction set of PENTIUM, MMX – multi media extension, Intel MMX architecture , MMX data types,Comparison of Pentium PRO, Pentium II, Pentium III and Pentium IV. (10 hours)

TEXT BOOK:

A.K.RAY, K.M. BHURCHANDI – Advanced Microprocessors Peripherals – Architecture ,Programming and Interface – Tata McGraw Hill – 2000 – Sixteenth reprint – UNIT I,II, III and V.

REFERENCE BOOKS:

1. DAVID A. PATTERSON, JOHN. L.HENNESSEY – Computer organization and Design - TheHardware / Software Interface – ELSEVIER – Morgan Kaufmann Publishers – 2005 – Third Edition.UNIT IV and V.

2.CARL HAMACHER, ZVONKO VRANESIC, SAFWAT ZAKY – Computer Organization - Mc GrawHill International Student Edition - 2002 – Fifth edition

Specialization


Lecture



E53/Q43-TRANSMISSION AND DISTRIBUTION(Common to B.E.(EEE) and P.T.B.E Degree)

Objective: To make the students understand the basic concepts of transmission networks and theirperformance analysis.

UNIT ILine Constants Calculations - Inductors and Inductance- Inductance of two wire transmission line-Inductance of three phase asymmetrically spaced transmission line- Transposition of Power lines-

Composite conductors- Inductance of Composite conductors- Inductance of double circuit three phase line– Bundled conductors- Skin and Proximity effect- Capacitance of Single phase transmission line-Capacitance of double circuit line- Effect of earth on the capacitance of the conductor.

(10)

UNIT IIPerformance of Lines - Representation of lines- Short transmission lines- Medium length transmissionline- Long transmission lines- ABCD constants- Circle diagram - Ferranti effect- Voltage control of Longlines. (10)

UNIT IIIMechanical Design of Transmission Lines - Sag and tension Calculations-Supports at different levels -Stringing Chart - Sag template- Equivalent span – Stringing of conductors- Vibration and Vibrationdampers. Corona-Formation and effects- Reducing Corona (10)

UNIT IVInsulators and Cables - Types of Insulators – Potential distribution over a string of suspension insulators-Methods of equalizing the potential- Failure of Insulators- Testing of Insulators- Extra High voltage cable-Grading of Cables- Insulation resistance of a cable- Capacitance of single core cable- Heating of cables-Overhead lines versus underground cables- Types of Cables. (10)

UNIT VA.C. Distribution systems - Feeders, distributors and service mains- Radial and ring main systems-Calculation of voltage in distributors with concentrated and distributed loads. Load balancing.

(10)

Text Books:H.Cotton and H.Barber - Transmission and distribution of electrical energy – BI, NewDelhi -1985C.L.Wadwa - Electrical Power system – New Age International-4th Edition – 2005.Reference Books:SL.Uppal - Electrical power, Khanna Publishers, 1996.T.S.M. Rao - Principles and practice of electric power transfer systems, 1994.Soni ML and Gupta PV - A Textbook on Power Systems Engineering – Dhanpath Rai 1st Edition-1998.

Specialization


Lecture



E54/Q61-CONTROL SYSTEM DESIGN(Common to B.E. and P.T.B.E Degree)

Objective: To introduce the design and analysis of continuous and discrete time control systems

UNIT I

Design problem – Preliminary consideration of classical design – Realization of lag, lead and lag-leadcompensators - Time domain design of cascade compensators - Frequency domain design of cascadecompensators – Feedback compensation. (10)

UNIT II

Introduction to Sample data control systems – Spectrum analysis of Sampling process, signalreconstruction, difference equation, Z-transform, Z-transfer function – Inverse Z transform, Z-transformanalysis of sampled data control system, Z and S domain Relationship - Stability analysis. (10)

UNIT IIIZ-plane specifications of control system design, Digital compensator design, Digital

compensator Design using frequency response plots, Digital compensator design using Root locusplots, Z-plane synthesis.

(10)

UNIT IVStability improvement by pole placement, pole placement by state feedback, Full order

observers- Reduced order observers- Separation principle (10)UNIT V

State variable approach of linear discrete time systems - pole placement by state feedback,full order observers- Reduced order observers, dead beat control using state feedback

(10)Text Book:M.Gopal – Digital control and state variable methods – Tata McGraw Hill Publishing company Ltd.,IsEdition 1997.Reference Books:I.J.Nagarth and M.Gopal - Control systems engineering - Wiley Eastern Ltd., 1993.M.Gopal - Modern control system theory - Wiley Easter Ltd., 1989.K.Ogata - Digital control systems - Prentice Hall of India Pvt. Ltd,1997.

Specialization

B.E. EEE ----- Lecture


Subject code E 55 ----- 3 1 0 4

E55/EI56 -COMMUNICATION ENGINEERING(Qualitative Treatment only)

Objective: To give the basic theory needed and used to implement most of the modern communicationsystems currently in use. It considers noise, optimum filtering, modulation formats and their optimalityunder various constraints and the design of an optimum receiver.

UNIT IIntroduction to communication systems and Amplitude Modulation- Modulation introduction-Information and Bandwidth – Amplitude modulation fundamentals- Percentage Modulation-Theory-Modulation Index-Generation of AM-Theory of Frequency and phase modulation- Noise and FrequencyModulation- Generation of Frequency Modulation. (10)

UNIT IIAngle Modulation - FM Generator-FM Analysis-Noise Suppression-Direct FM: Varactor diode-IndirectFM: PLL FM Transmitter-FM receiver block diagram-Detector: PLL FM demodulator.

(10)UNIT III

Digital Communication - Introduction –Pulse modulation- Pulse amplitude modulation- Pulse widthmodulation- Pulse position modulation- Pulse code modulation-Data transmission via FM/PM- Frequencyshift keying- Phase shift keying –coding- gray code- Baudat code- Code error detection- Parity- Cyclicredundancy check- companding. (10)

UNIT IVAntennas and wave propagation - Electrical to electromagnetic conversion- Electromagnetic waves-waves not in free space – Ground and space wave propagation- shy wave propagation- Ionospheric layers-effects of the ionosphere on the sky wave – Tropospheric scatter- Radiation and induction field –radiationpattern-antenna gain –radiation resistance- yagi-uda- Logperiodic- Loop antenna- Folded dipole -Slot

(10)

UNIT VApplications - Introduction to fiber optic communication – Block diagram of Transmitter and receiver –Advantages – Types of fiber cables. Introduction to mobile communication model – fading – hand off –Frequency reuse. TV transmission and reception – Block diagram – Scanning – Color TV camera – Colorpicture tube operation – Measurements. (10)

Text Book:Gary M.Miller- “Modern Electronic Communication”, Prentice Hall –Inc 6 th edition.

Reference Books:

1. George Kennady- “Electronic Communication Systems”- Mc Graw Hill Pvt Ltd- 6th edition 2001.

2. WCY. Lee – Mobil Cellular Telecommunication Systems – McGraw Hill International, 1995.

3. Gulathi – Modern Television Practice – Wiley Eastern, 1991.

Specialization


Lecture



E56/EI74/Q44 -POWER ELECTRONICS(Common to B.E. (EEE), B.E (E&I) and P.T.B.E Degree)

Objective: To impart knowledge on power electronic converters and their applications.

Unit – I

Power Semiconductor Devices - Characteristics of Power diode, Power transistors, SCR, GTO, MOSFETand IGBT - Different turn-on methods of SCR - Commutation of SCR - Series and Parallel operation ofSCR - Protection & Ratings of SCR. (10)

Unit – IIAC to DC Converter – Review of uncontrolled Rectifier - Single phase and three phase Controlledrectifiers - Semi controlled and fully controlled rectifier - Dual converter - power factor improvement -Effects of load and source inductance on converter operation - Triggering circuits for such rectifiers.

(10)Unit – III

DC to AC Converter - Principle and operation of single phase and three phase inverters - Series resonantinverter - Parallel inverter - Current source inverter - Voltage control - Waveform control – Harmonicdistortion and Electro Magnetic Interference.

(10)Unit – IV

DC to DC and AC to AC Converters - Step down and Step up DC choppers - Effect of source and loadinductance - Single phase AC voltage controller with R and RL load - Principles of single phasecycloconverter (10)

Unit – VApplications - Basics of DC Motor and AC Motor speed control – Switch mode power supply - Reactivepower compensation - Uninterruptible power supply - Static circuit breakers. (10)

Text Book:Muhammad H. Rashid - Power Electronics Circuits, Devices & Applications – Pearson Education

India Publication, New Delhi, 2004.

Reference Books:MD Singh & KB Khanchandani - Power Electronics - Tata McGraw - Hill Publishing Company Ltd,

New Delhi, 2004.Ned Mohan, Tore Undeland & William Robbins - Power Electronics: Converters, Applications and

Design – John Wiley & Sons, 2003.

P.S.Bimbhra -Power Electronics- Khanna Publishers, 2003.Daniel W. Hart - Introduction to Power Electronics - Prentice Hall International Inc., 1997.P.C.Sen- Power Electronics, Tata McGraw Hill publishers Pvt. Ltd., 2004.

Specialization



Subject code E 57 ----- 0 0 3 2

E57 MICROPROCESSOR LABORATORY

Objective: To impart Assembly language programming skills to solve different problems.

1. Familiarisation of 8086 assembler.

2. Multibyte addition and subtraction.

3. Multi byte Multiplication and Division

4. Code conversion (Binary to BCD, BCD to Binary)

5. Code conversion ( ASCII to Binary & Binary to ASCII)

6. Binary to Seven segment code conversion

7. Sorting of numbers

8. Lookup table

9. PC Communication

10. Interrupts

11. Parity and check sum error detection

12. Generation of square wave

13. Device driver programming

Specialization

B.E. EEE ------ Lecture


Subject code E 58 ------ 0 0 3 2

E58 POWER ELECTRONICS LABORATORY

Objective: To impart knowledge on different power electronic circuits and their characteristics.

SCR and TRIAC phase control circuit

Single phase SCR based controlled rectifiers

Single phase TRIAC based controller

Three phase controlled rectifiers

Inverter using MOSFET

DC Chopper using IGBT

Study of DC drives

Study of Variable frequency drives

Study of solid state relay and static circuit breaker

Study of battery charger and UPS

Study of SMPS

Simulation of Power electronic circuits using PSCAD/PSPICE/MATLAB

Specialization

B.E. EEE ------ Lecture


Subject code E 59 ------ 3 0 0 3

E59/EI59 TOTAL QUALITY MANAGEMENT

Common to all branches of Engineering and Technology(B59, D59, G59, F59, C59, IT59)

Objective: To understand the concepts, principles, techniques and implementation of TQM

UNIT-IIntroduction - Fundamentals of TQM – Historical development – important philosophies (Deming, Juran,Crossby) and their impact on quality – Quality planning, Quality council, Quality statement – stages toimplement TQM, issues in TQM implementation. (10)

UNIT-IIPrinciples of TQM - Customer satisfaction – customer perception of quality, customer complaints,Employee involvement – Juran Trilogy, PDSA cycle, 5S, Kaizen, JIT, performance measures – basicconcepts, strategy. (10)

UNIT-IIIStatistical Process Control - Seven tools of quality, statistical fundamentals – central tendency, dispersionmeasurement, population and sample, Normal curve, control charts for variables and attributes, ProcessCapability, Six Sigma concept. (10)

UNIT-IVTQM Techniques - Quality Functions Deployment (QFD) – house of Quality, QFD process, benefits,Taguchi quality loss function, Benchmarking process, TPM – concept, FMEA-concept, stages.

(10)

UNIT-VQuality Management Systems - Need for ISO 9000 and other quality systems, ISO 9001: 2000. QualitySystem – Elements, Implementation, Documentation and Auditing. TS 16949, ISO 14000 – Concept,requirements and benefits - Case studies (10)

Text Book:1. Dale H.Besterfiled, Carol Besterfield-Michna, Glen H. Besterfield and Mary Besterfield-Sacre.,

‘Total Quality Management’, Pearson Education Asia, 2002.

Reference books:1. Shridhara Bhat, “TQM – Text & Cases”,Himalaya Publishing House, 20022. Berk, Joseph and Berk, S., “The Essence of TQM”, Prentice Hall India, 1998.3. Narayana and Sreenivasan, “Quality Manangement – Concepts & Tasks”, New Age

International, 1996.4. Sharma, D.D, “Total Quality Management’, Sultan Chand and Sons, 2005.

]

VI SEMESTER

Specialization


Lecture



E61/Q54 GENERATION, UTILISATION AND CONSERVATION

Objective: To impart knowledge on Electric generation, electric power utilization on the fields such asheating, welding, illumination, electric traction and energy conservation measures.

UNIT – IGeneration - Generation of electrical power by conventional methods-a brief review-generation from tidal,wind, MHD, geothermal and solar sources-introduction to the concept of distributed generation-effectsystem operation.

(10)

UNIT-IIIllumination, Heating and Welding - Nature-of radiation –definition-laws photometry –lightingcalculations-design of illumination systems (for residential, industrial, commercial, health care, streetlightings, sports, administrative complexes) - types of lamps-energy efficiency lamps. Methods of heating

requirement of heating material-design of heating element-furnaces – Welding generator-weldingtransformer and its characteristics (10)

UNIT-IIIElectric traction - Introduction – requirements of an ideal traction system – supply systems –mechanics oftrain movement-traction motors and control multiple units-braking-current collection systems-recent trendsin electric traction. (10)

UNIT- IV

Drives and their Industrial applications - Introduction-motor selection and related factors-loads-types-characteristics-steady state and transient characteristics-load equalization- industrial applications-modernmethods of speed control of industrial drives. (10)

UNIT- VConservation - Economics of generation-definitions-load curves number and size of units-cost ofelectrical energy-tariff-need for electrical energy conservation-methods-energy efficient equipment –energy management –energy auditing.Economics of power factor improvement – design for improvement of power factor using power -Capacitors-power quality-effect on conservation (10)

Text Books:E. Opens haw Taylor, “Utilization of Electrical Energy in SI Units” Orient Longman Private Limited,

2003B.R. Gupta, “Generation of Electrical Energy”, Eurasia Publishing House Private Limited, New Delhi,

2003.V.Ramanathan, P.S.Kannan, V.Saravanan, P.S.Manoharan, “ Electric Generation, Utilisation and

Energy conservation” Charulatha Publishers, 2006

Specialization


Lecture


Subject code E62 Q7K 3 1 0 4

E62/Q7K/EI66 DIGITAL SIGNAL PROCESSING

Objective: To understand the basics of digital signal processing and design of digital filters.UNIT I

Basic elements of a digital signal processing system – Advantages of digital over analogsignal processing – Continuous time verses discrete time signals – Sampling of analog signals –Quantization of continuous amplitude signals – Signal representation – Classification discrete timesignal – Operation on signals - Correlation of discrete time signals. (10)

UNIT IIDiscrete time system – Causal, dynamic, linear, time invariant, stable systems –

Frequency analysis of discrete time signals - Power density spectrum of periodic signals – Fourierseries for discrete time periodic signals – Properties of the Fourier transform for discrete timesignals (10)

UNIT IIIZ Transform and its application - Discrete Fourier Transform (DFT) and its properties - Fast FourierTransform (FFT) algorithms – Radix-2 FFT (10)

UNIT IVProperties and Structures for FIR and IIR filter – Design of FIR filter using rectangular and hammingwindows – Design of IIR filter from analog filters using bilinear and impulse invariance transformation

(10)

UNIT VEffects of coefficient on quantization – Quantization in sampling analog signals – Finite register lengtheffects in realizations of digital filters.Architecture and features of TMS320C5X DSP (10)

Text Books:John G.Proakis & Dimitris G.Manolakir, - Digital signal processing principles, algorithm and

applications – Pearson Education, New Delhi, 2003.Texas Instruments TMS320C5X users guide.

Reference books:

P.Ramesh Babu - Digital signal processing, Scitech publications of India, 2003.Emmanuel C. Ifeachor & Barrie W. Jervis - Digital signal processing - A practical approach, Pearson

Education, New Delhi, 2004.A.V. Oppenheim and R.W.Schafer – Digital Signal Processing” – Prentice Hall of India, 2001.Sanjit K.Mishra – Digital Signal Processing – A computer based approach, Tata McGraw-Hill, New

Delhi, 2004.

Johnny R.Johnson – Introduction to digital signal processing – Prentice Hall of India, 1989.

Specialization


Lecture


Subject code E63 -- 3 1 0 4

E63/EI8J VLSI DESIGN(Common to B.E. (EEE) & B.E.(E&I) Degree)

Objective: To impart knowledge about the basic concepts, design and testing of CMOS Circuits and tolearn about the basics of VHDL.

UNIT ICMOS Circuits & MOS Transistor Theory - MOS Transistors - MOS Transistor Switches - CMOSLogic – MOS Device Design Equations – Complementary CMOS Inverter – Transmission Gate – BasicCMOS fabrication technology – n well process – p well process – twin tub process – silicon on insulator.

(10)

UNIT IICMOS Circuit and Logic Design - CMOS Logic Gate Design – Fan-in and Fan-out – Transistor Sizing -Basic Physical Design of simple logic gates – Inverter – NAND and NOR – CMOS Standard Cell Design– 2 Input Multiplexer –CMOS Logic Structures - BiCMOS Logic - Dynamic Logic – CMOS DominoLogic – SFPL Logic. (10)

UNIT IIIClocking Strategies & I/O Structures - Clocking – Clock Distribution – Overall Organization – OutputPads – Input Pads – Tristate and bi-directional Pads – Low Power Clocked Systems – Phase Locked LoopClock Techniques – Single Phase Logic Structures – Two Phase Design. (10)

UNIT IVCMOS Testing - The Need for Testing – Manufacturing Test Principles – Fault Models – Observability –Controllability – ATPG – Delay Fault Testing – Design Strategies for Test – Design for Testability – Ad–Hoc Testing – Serial Scan – Parallel Scan – Memory Self Test –Built in self test – IDDQ test. (10)

UNIT VVHDL – A CAD Tool for Design - Introduction – VHDL Terms – Behavioral description –Sequential description – Data flow description –Introduction to Synthesis - Entity (10)

Text Book:Neil H.E. Weste & Kamran Eshraghian, “Principles of CMOS VLSI Design”, Second Edition,

Addison –Wesley Publishers, 1998.

Reference Books:Wayne Wolf, “Modern VLSI Design,” 2nd edition, Prentice Hall PTR, 2000.

Sung – Mo Kang, Yusuf Leblebici, “CMOS Digital Integrated circuits, Analysis & Design”, 3rd

edition, Tata Mcgrew – Hill Publishing, 2003.J. Bhaskar, “A VHDL Primer”, Third Edition, Addition Wesley, 1999.

Specialization


Lecture



E64/Q71 DESIGN OF TRANSFORMERS AND ELECTRICAL MACHINES


Objective: To impart knowledge on the design of electrical Machines, Selection of magnetic, conducting& insulating materials.

UNIT IIntroduction - Design factors - Limitation in design - Various Conducting materials, Insulating materialsand Magnetic materials.Design of Magnetic Circuits - MMF calculation for Air gap and Teeth - Iron losses & Magnetizingcurrent calculationsDesign of Armature Windings - Types of Winding – D.C. Armature winding – A.C. Armature winding.

(12)

UNIT IIDesign of Transformer - Output equation - Design of core – Optimum Design for weight, volume, costand losses - Overall Dimensions -Type of Windings - No load current & loss calculations; Design of Tankand Cooling tubes. (10)

UNIT IIIDesign of D.C. Machine - Output equation - Choice & inter dependence of Electric and Magnetic loadings- Selection of Number of Poles - Main Dimensions - Length of Air gap - Pole design - Design of Shunt &Series field windings (08)

UNIT IVDesign of A.C. Machines: Three Phase Induction Motor - Output equation - Choice of Electric and Magnetic loadings - Maindimensions - Stator core design - Length of Air gap - Rotor core Design - No load current calculation.

Synchronous Machine - Choice of Electric and Magnetic loadings - Main dimensions -Length of Air gap – Short circuit ratio - Stator core design and Rotor core Design for salient poleand turbo alternators - Design of Pole and Field winding - Stator winding calculations.

(12) UNIT V

Computer Aided Design - Introduction – Benefits – Approaches – Optimization; Flow chart / Algorithmfor design of Electric and Magnetic circuits in Transformer / D.C. Machine / A.C. Machines.

(08)

Text book:

1. A.K. Sawhney ,A course in Electrical Machine Design - - Dhanpat Rai & Sons, Reprint 2002.

Reference books:

1. H.M. Rai ,Electrical Machine design - Sathiya Prakashan Publication – 3rd Edition - 1992.2. R.K.Agarwal , Electrical Machine Design – S.Kataria & Sons, N.Delhi. 4th Edition, Reprint, 2003.3. S.K.Sen, Principles of Electricsl machine Design – Oxford & IBH pub. Co. Pvt. Ltd., 2nd Edition, 2001.4. M.Ramamoorthy, Computer Aided Design of Electrical Equipment – East West Press, 2000.

Specialization


Lecture



E65/EI52/Q53 - MICROCONTROLLERS(Common to B.E.(EEE), B.E (E&I) and P.T.B.E. Degree)

Objective: This course is intended to introduce the architecture of the microcontrollers 8051, PICmicrocontrollers & interfacing and the fundamentals of PLC

UNIT I8051 Architecture- hardware- I/O Pins, Ports, External memory- Counter and Timers- Serial dataInput/Output- Interrupts- Instruction set of 8051- Simple assembly language programming.

(10)

UNIT II8051 Timing subroutines - Lookup tables- Measurement of frequency-Serial data transmission-Interfacing matrix keyboard, Multiplexed LED display, LCD, D/A converter and A/D converter with8051.

(10) UNIT IIIPIC16C6X Architecture- Memory organization, I/O Ports, Timer modules, Instruction set- Interrupts- SPI–Input port and Output port expansion (10)

UNIT IV

PIC 16F877 - On-chip ADC, I2C memory, Real-time clock, PWM generation, PWM voltage regulation

(10) UNIT V

Parts of PLC - PLC Hardware components - I/O section - Discrete I/O modules, Analog I/O modules,Input devices - Input and Output control devices - PLC ladder diagrams, Timer instructions - Counterinstructions - Data transfer instructions -math instructions, Simple applications of PLC (10)

Text Books:

1. Muhammad Ali Mazidi, Janice Gillispie Manidi, The 8051 microcontroller and embedded systems,Pearson Education, 2000. (Unit I and II )

2. John B.Peatman, Design with PIC Micro controllers, Pearson education, 2002(UNIT – III & IV)3. Frank D. Petruzella, Programmable logic controllers, McGraw Hill Book Company, 1998. (Unit V)

Reference books:1. Kenneth Ayala, Programming with 8051 microcontroller, 2nd edition , Pen ram Publishers, 2003 2. Intel 8051 Microcontroller Hand book, Intel Corporation.3. PIC16C6X & PIC 16F877 CMOS MCU Data Sheet

http://ww1.microchip.com/downloads/DeviceDoc/4. Application of PLCs to industries, Short term course material conducted by EEE Department,

Thiagarajar College of engineering, Madurai, 1996.

Specialization



Subject code E66 ----- 3 1 0 4

E66/EI61 - OPERATIONS RESEARCH

Objective: Operations Research (OR) concerning with the efficient allocation of scarce resources, is bothan art and a science. The art lies in the ability to reflect the concepts (efficient and scarce) in a well-definedmathematical model of a given situation. The science consists in the derivation of computational methodsfor solving models. This course is meant to introduce the students both aspects of the field.

UNIT IIntroduction:Basic concepts and scope of OR – Phases of ORLinear programming (LP):Formulation of LP Problems – Limitations of LP – Solutions to LPP – Graphical Solution –Standard LPform and its Basic solutions – The simplex algorithm – Artificial Variable Technique – Big M method,Two phase method – Variants of the Simplex Method – Degeneracy, unbounded solution, infeasiblesolution – Application for business and Industrial problems. (10 periods)

UNIT IIDuality:Primal – Dual models – Dual Simplex method. Transportation model:Mathematical formulation of the problem – Methods for finding an initial solution – North West cornermethod, Least cost method, Vogel’s approximation method (VAM) – Test for optimality – Variants of theTransportation Problem. Assignment model:Mathematical Formulation of the problem – Solution of an Assignment Problem – Hungarian Algorithm –Variants of the Assignment problem – Traveling Salesman Problem. (10 periods)

UNIT –IIIInteger linear programming:Types- Concept of a Cutting Plane – Gomary’s cutting plane method – Branch and bound method. Dynamic programming:Concepts – Terminology – Bellman’s Principle of optimality – Application in Network, Allocation andInventory. (10 periods)

UNIT IVProject management: PERT and CPM:Concept of Network – PERT, CPM - Construction of Network – Critical path analysis – Probability inPERT analysis – Cost trade-off analysis.Theory of games: Two person zero sum game – Pure strategies – Mixed strategies – Games with dominance – Solutionmethods of games without saddle point – algebraic method, arithmetic method, matrix method andGraphical method. (10periods)

UNIT VInventory control:Deterministic model – Costs – Decision variables – EOQ – Instantaneous receipt of goods with andwithout shortages – Non-instantaneous receipt of goods without shortages - Price breaks – Probabilisticinventory model – Single period without setup cost – Inventory systems- Lead time – Safety stock – ROL,ROP determination.Queuing:Characteristics of Queuing system – Symbols and Kendall’s notation – Poisson arrival and exponentialservice – Single and multi channel model – Infinite population. (10 periods)

Text Book:1. Sharma.J.K., “Operations Research : Theory and applications”, Macmillan India Ltd., Reprint,

2003.

Reference Books:

1. Hamdy A.Taha, “Operations Research – An Introduction”, Seventh Edition,, Prentice Hall ofIndia Pvt Ltd., 2002.

2. Don. T. Philips, Ravindran, A and James Solnerg, “Operations Research: Principles and Practice”, John Wiley and Sons, 1986.

3. Bobby Srinivasan and Sandblom. C.L, “Quantitative Analysis for Business Decisions”, Mc Graw Hill Book Co, 1989.

4. Chanrasekara Rao, K, Shanti Lata Misra, “Operations Research”, Alpha Science InternationalLtd, 2005.

Specialization




E67 INTEGRATED CIRCUITS LABORATORY

Objective: To impart knowledge on linear and digital integrated circuits.

Analog IC:

Op-Amp based circuits (Inverting amp, No-inverting amp, summer, differential amplifier)

Integrator and differentiators

Precision rectifier circuits

First and Second order active filters

555 Timer

Comparator with Hysteresis

Waveform generator

Digital IC:

Realization of Boolean expression using logic gates

Half and full Adder circuits

Design of synchronous and ripple counters

Shift registers.

Multiplexer, Demultiplexer and Decoders

CMOS – TTL Interfacing

PLL- Frequency multiplication

Implementation of multi-input logic in FPGA

Specialization




E68 MEASUREMENTS & CONTROL LABORATORY

Objective: To impart knowledge on linear and digital integrated circuits.

1. Calibration of energy meter (1 phase & 3 phase).2. I/V and V/I converters.3. Study of transducers

i) Strain guages, (ii) Load cell,iii) Thermo couples, (iv) LDR & LVDT, v) Opto couplers and (vi) Crystal make.

4. Measurement of capacitance and loss angle of a capacitor using schering bridge.5. Measurement of self inductance and resistance of a choke coil using Anderson bridge.6. Measurement of reactive power.7. Measurement of frequency, time and phase angle using microprocessors.8. Study of IDMT relay.9. Calibration of CT10. Numeric Relays.Control Systems lab:

Transfer function of separately excited D.C. generator.Transfer function of armature controlled D.C.motor.Transfer function of field controlled DC motor.Compensating networks.Simulation of digital control(P&PI) of I &II order plants.Study of synchrosStudy of D.C. motor control equipment.Study of Programmable Logic Controller.Study of Process Models

Specialization




E69/EI69-ENVIRONMENTAL SCIENCE

(Common to B.E.(EEE),B.E.(E&I))

Objectives: The alarming rate of exploitation of natural resources by mankind results in totalEnvironmental mismanagement. Hence the fundamental knowledge on environment and its Sciencebecomes utmost important for every citizen of our country. The aim of the subject is to impart the basicknowledge on Environmental Science.

Unit I

General - Multi disciplinary nature of Environmental studies –Definition – Scope –Importance – Need forpublic awareness.Natural Resources – Forest - Use and over exploitation, deforestation, Timber extraction, mining, damand their effects on forests and tribal peopleWater: Use and over utilization of surface and ground water, floods, Droughts.Food: Agriculture-Overgazing-effects of modern agriculture, fertilizer-pesticide problems- water logging-salinity.Energy: Growing needs renewable and non renewable energy – Use of alternate energy sources.Land: Land as a resource- Land degradation – Land slides- soil erosion-desertification. (12)

Unit IIEco Systems - Concept of an Ecosystem- Structure and function – Components- Energy flow in theEcosystem- Ecological succession-Food chains, Food webs and Ecological pyramids-Types of Ecosystem-Forest Ecosystem- Grass land Ecosystem – Desert Ecosystem- Aquatic Ecosystem. (8)

Unit IIIBiodiversity And Its conservation - Introduction- Definition- Genetic, species and Ecosystem diversity-Biographical classification of India- Value of biodiversity consumptive use, productive use, social, ethical,aesthetic and option values. Hot spots of biodiversity- Threats to biodiversity: habitat loss, poaching ofwild life, man wild life conflicts. Endangered and endemic species of India- conservation of biodiversity-Insitu and Ex-situ conservation

(10)Unit IV

Environmental Pollution - Definition- Causes, Effects and control measures of Air Pollution- WaterPollution- Soil Pollution- Noise Pollution- Solid waste management- causes, effects and control measuresof urban and industrial waste. (12)

Unit V

Social Issues and the Environment - Water Conservation- Rain water harvesting- Climate change- globalwarming- Acid rain- Ozone layer depletion and its ill effects of human beings- Wasteland reclamation –Salient features of Environment protection Act, Air act, water act, wild life protection act and forestconservation act- Issues in enforcement- Public awareness. (8)

Text Book:1. Suresh K.Dhameja, “Environmental Engineering and Management” S.K.Kataria & sons Delhi

2000Reference Books:

1. B.K.Sharma and H.Kaur, “An Introduction to Environmental Pllution” GOEL Publishing House,Meerut First Edition 1997(Unit II, Unit IV)

2. B.K. Sharma and H.Kaur, “Environmental Chemistry” GOEL Publishing House, Meerat SecondEdition 1995(Unit II, IV)

3. Wright and Nebel, “Environmental Science towards a sustainable future” Prentice Hall of India Ltd2000.

VII SEMESTER

Specialization


Lecture



E71/Q45/EI71-MANAGEMENT TECHNIQUES(Common to B.E.(EEE),B.E.(E&I) and P.T.B.E Degree)

Objective: To make them understand the basic concepts of management tools.

UNIT I

Economics – Definition and Meaning – Engineering and Economics – Micro and Macro Economics –Basic principles – Opportunity – cost principle – Incremental and principle of time perspective –Discounting principle – Application of the principles in taking decisions – Demand – Law of demand-Elasticity of demand – Demand forecasting – Methods of demand forecasting. (10)

UNIT IIIndustrial Psycology- Importance – Group and Group dynamics- Motivation and morale – Leadership andcommunication. Plant location decision – Factors to be considered – plant layout decision – objectives andprinciples of layout – Types of layout (10)

UNIT IIIPlant Maintenance – Types of maintenance – Relative advantages and disadvantages. Productivity– Productivity of different factors of production methods of improving human aspects ofproductivity – Depreciation – Methods of depreciation – Break-even analysis – Usefulness inmanagerial decisions. (10)

UNIT IV

Budgeting and budgetary control – Uses of budgets and budgetary control – Types of budgets –Capital budgeting – Methods of evaluating capital budgeting decisions – Payback and accountingrate of return methods – Net present value and internal rate of return method. (10)

UNIT VSources of finance – Fixed and working capital requirements – Generation by internal andexternal sources – Role of special financial institutions – pricing of products – Pricing policies –Pricing methods. (10)

Text Books:Y.K.Bhushan – Fundamentals of business organisation and management – Sulthan and sons, 1998.M.C.Shukla, Business organisation and management – Sulthan and sons – 1998.

Reference Books:C.B.Gupta – Production, Productivity and cost effectiveness, - Sulthan and sons, 1998.B.S.Goel, Production and opeations management, pragathi prakasan, 1998.O.P.Khanna – Industrial engineering and management – Sulthan and sons, 1998.L.M.Prasad, Organization Behaviour, Sulthan Chand & sons, 1998.

Specialization


Lecture



E72/Q62 POWER SYSTEM ANALYSIS(Common to B.E.(EEE) and P.T.B.E Degree)

Objectives: To model the steady-state operation of power system and to solve the power flow problemusing efficient numerical methods suitable for computer application. To model and analyze power systemsunder fault conditions and to design the system for enhancing stability

UNIT - IIntroduction - Need for system analysis in planning and operation of power system – distinction betweensteady state and transient state – per phase analysis of symmetrical three-phase system. General aspectsrelating to power flow, short circuit and stability analysis - per unit representation. (10)

UNIT - IINetwork modeling - Primitive network and its matrices – bus incidence matrix – bus admittance and busimpedance matrix formation. Π-equivalent circuit of transformer with off-nominal-tap ratio. Modelling ofgenerator, load and transmission line for power system analysis. (10)

UNIT - IIIPower flow analysis - Problem definition – bus classification – derivation of power flow equation –solution by Gauss–Seidel and Newton–Raphson methods - P-V bus adjustments for both methods -computation of slack bus power, transmission loss and line flow. (10)

UNIT - IVShort circuit analysis - Need for short circuit study- Approximations in modelling – calculation for radialnetworks. Symmetrical short circuit analysis – symmetrical component transformation – sequenceimpedances – unsymmetrical fault analysis on an Unloaded generator. (10)

UNIT - V

Stability analysis - Concept of stability in power system-stability limits-methods of improving stabilitylimits- Swing equation in state space form –solution of swing equation by Euler’s method and Runge-Kuttamethod –power angle equations-Equal area criterion - critical clearing angle. (10)

TEXT BOOKS

1 John J. Grainger and Stevenson Jr. W.D., ‘Power System Analysis’, McGraw Hill InternationalEdition,1994.

2. Nagarath.I.J, Kothari.D.P,’Power system Engineering’, Tata McGraw Hill Pub. Co. Ltd., 1994.3. F.W.Kimbark-Power system stability,Volume I, Eastern Wiley Publications, 1984.4. C.L.Wadhwa-Electrical Power systems, Second edition, Wiley Eastern Limited, 1993.

REFERENCES

1. Stagg, G.W. and El-Abaid, A. H. ‘Computer Methods in Power System Analysis’, McGraw-HillInternational Book Company 1993.

2. Nagarath, I.J., and Kothari, D.P., ‘Modern Power System Analysis’, Tata McGraw Hill PublishingCompany, 1990.

Specialization


Lecture



E73/Q72 PROTECTION AND SWITCH GEAR(Common to B.E.(EEE) and P.T.B.E Degree)

Objective: To familiarize the concepts of Power System Protection and the concepts of Selection ofSwitchgears and their Implementation.

UNIT IOver voltages: Cause of over voltages – Switching surges- Lightning phenomena – Causes - Over voltagedue to lightning - Klydonograph - Protection of transmission lines against direct lightning strokes -Protection of stations and sub-stations from direct strokes - Protection against travelling waves - Petersoncoil - Insulation co-ordination - Basic impulse insulation level.

(10)UNIT II

Circuit breakers: Arc voltage - Arc interruption - Restriking and recovery voltage - Resistance switching -Current chopping - classification of circuit breakers - Oil, air blast, SF6 - - Vacuum circuit breaker -Operating mechanism - Introduction to HVDC circuit breaker - Selection of C.B. - Testing of C.B.

(10)UNIT III

HRC Fuses and Switches:HRC fuses - Construction - Action of HRC fuses - Fuse characteristics - Selection of fuses - Applications -Discrimination - Types of isolators and earthing switches - Typical sub station connections with protectiveswitch gear and layout – Gas insulated sub-station – Pantographic switches. (10)

UNIT IVAlternator and Transmission line protection: Stator protection - Percentage differential protection -Protection against stator intertern faults - Stator overheating protection - Rotor protection - Field groundfault protection - Loss of excitation - Rotor overheating protection - Protection against Over voltage, Overspeed, Motoring, Vibration and distortion of rotor, Voltage regulator failure, field suppression. Protection of feeder and ring main system - Earth fault protection-Introduction to distance protection ofHV and EHV lines - Pilot wire protection - Carrier current protection. (10)

UNIT VMicroprocessor-based protective relays: Introduction-Microprocessor-based Overcurrent relays-Generalised Mathemaical expression for Distance relays- Generalised Interface for Distance relays-Microprocessor Implementation of Digital Distance Relaying Algorithms. (10) Text Books:

1. Protection and switch gear - Sunil S.Rao - Khanna Publishers - IV Edition - 1990.2. Power System protection and switch gear - Badri Ram and D.N.Viswakarma.1995,Tata Mcgraw Hill Publishing Company Ltd., New Delhi..Reference Books:1. Power System protection and Switch gear - B.Ravindranath and N.Chander New Age International (P).Ltd,Reprint 1996.2. Switch gear and protection - R.S.Sha.3. Electrical power - Uppal.4. Digital Protection-L.P.Singh.5. Fundamentals of Power System Protection-Y.G.Paithankar, S.R.Bhide, PHI, 2003.

Specialization


Lecture


Subject code E74 Q6J 3 1 0 4

E74/Q6J DRIVES AND CONTROL(Common to B.E.(EEE) and P.T.B.E Degree)

Objective: To study the principle and operation of Electrical drives and their control techniques.

UNIT IElectric Drives - Advantage of Electric Drives - Parts and choice of Electrical Drives - Status of DC andAC drives - Torque-speed characteristics of motor and load - Selection of Motor power rating - Thermalmodel of motor for heating and cooling - Classes of duty cycle - Determination of motor rating - Control ofElectric drives - Modes of operation - Speed control and drive classifications - Closed loop control ofdrives (10)

UNIT IIDC Motor Drives - DC motor and their performance - Braking - Speed control - Methods of armature andfield voltage control - Controlled rectifier fed DC drives - Chopper controlled DC drives - Single, two andfour quadrant operations (10)

UNIT IIIInduction Motor Drives - Speed control of three phase induction motors - Stator voltage and frequencycontrol - AC chopper and Inverter fed induction motor drives - Rotor resistance control and slip powerrecovery scheme - Static control of rotor resistance using DC chopper - Vector control of induction motor

(10)

UNIT IVSynchronous and BLDC Motor Drives - Speed control of three phase synchronous motors - Voltage andcurrent source fed synchronous motors – Vector control of Synchronous motor - Brushless DC motordrives and its applications.

(10)

UNIT VStepper and Switched reluctance motor Drives – Variable reluctance and permanent magnet steppermotors – Operation and control of switched reluctance motor. (10)

Text Books:1. G.K.Dubey - Fundamental of Electrical Drives - Narosa Publishing House, Chennai, 2004.

Reference Books:1. S.K.Pillai - A first course on Electrical Drives - New Age International (P) Ltd., 2002.2. R.Krishnan - Electric motor drives – Modeling, analysis and control, Pearson Education, New Delhi,

2003.3. Vedam Subrahmanyan - Thyristor control of Electrical Drives - Tata McGraw Hill Publishers, 2002.4. Muhammad H. Rashid - Power Electronics Circuits, Devices & Applications – Pearson Education

India Publication, New Delhi, 2004.

Specialization




E77 MICROPROCESSOR & MICROCONTROLLER APPLICATIONS LABORATORY

Microprocessor :

1. Centronics Printer Interfacing.

2. Stepper Motor Interfacing.

3. ADC Interfacing

4. DAC Interfacing

5. Traffic light controller Interfacing.

6. Keyboard / Display Interfacing (8279).

7. Serial Communication Interfacing (8251)

Micro Controller:

Familiarization of 8051 and PIC Micro controllers

Addition, Subtraction, Multiplication and division using 8051.

Code conversion using 8051

Generation of square wave and frequency measurement using 8051 on-chip timer Serial

Communication between PC and Microcontroller.

PIC on–chip ADC Interfacing.

Study of on-chip features of PIC16F877

Specialization




E78 COMPUTER SIMULATION LABORATORY

1. For the Laboratory course C++ is Compulsory and additional Software / Simulation package is tobe studied as optional.

2. Student should be able to draw flow chart, to code, test and debug simple programs of thefollowing types.

a. Solving linear & nonlinear algebric / differential equations.b. Solving Load flow equations using Gauss seidal (or) Newton Raphson method.c. ‘N’ th order Curve fitting technique for ‘m’ points.d. Use of String Handling functions.e. Applications of Graphical functions for Power Systems.f. Solving Modified Euler’s Method

3. The following are the Simulation packages for solving problems in Power Systems.

i. Matlab & Toolbox : a) Formation of Bus admittance matrix and Bus impedance matrix. b) Solving load flow equations. c) Simulation of Power System network using Simulink. d)Simulation of closed loop control systems.

ii. PSPICE : Simulation and study of simple Power System Circuit problems.

iii. Dynasim : Dynamic Simulation of Power System Network and control problems

Specialization


Lecture


Subject code E7A Q6A 3 1 0 4

E7A/Q6A ELECTRONIC CIRCUIT DESIGN (Common to B.E.(EEE) and P.T.B.E Degree)

Objective: To impart knowledge on design procedures of various electronic circuits.UNIT I

Design of regulators - Zener shunt regulator - Transistor shunt regulator - series voltage regulator - ICvoltage regulator using LM 317 - Switch mode Power Supply(Buck-Converter Only) (10)

UNIT IIDesign of small signal voltage amplifier using BJT - Selection of Transistor type - Selection and use ofimportant parameters such as , IC (max), Vc (max), Stability factor, input and output impedance - Bypassand coupling capacitor selection - design of single stage RC coupled amplifier. (10)

UNIT IIIDesign of Power amplifiers using MOSFET – Class A ,Class B Push-Pull amplifier – Class AB amplifier -Transformer coupling- Class D amplifier- Design of BJT and MOSFET Current sources. (10)

UNIT IVDesign of feedback amplifiers - Current and voltage feedback amplifier circuits - effect of feedback oninput and output impedance, gain stability, distortion and frequency response - Design of single tunedand double tuned amplifiers.

(10)UNIT V

Design of Oscillators using Op-amp. - Colpitts, Hartley, Crystal and Wien's Bridge oscillator - Design ofsingle phase full wave uncontrolled rectifier - C, L, and filter used with single phase full waveuncontrolled rectifier. (10)

Text Book:1. Donald A. Neamen, Electronic circuit analysis and design, 2nd edition ,Tata Mcgraw hill

Publishers, 2002.2. R.C.Jaeger and T.N.Blalock ,Micro electronic circuit design, 2nd edition ,Tata Mcgraw hill

Publishers, 2006.

Reference Books:1. N.C.Goyal and R.K.Khetan - A monograph on electronics design principles, Khanna publishers,

Delhi ,1998.2. Robert boylestad & Louis Nashelsky - Electronic devices and circuit theory, PHI Private Ltd.,

New Delhi,2004.3. Donald L.Scheilling & Charles Belove - Electronic circuits : Discrete and integrated, Mc Graw

Hill International Edition,1995.4. Paul M. Chirlian - Analysis and Design of Integrated Electronic Circuits, John Wiley &

Sons,1993.

Specialization


Lecture


Subject code E7B Q6B 3 1 0 4

E7B/Q6B/EI8B INDUSTRIAL ELECTRONICS(Common to B.E.(EEE),B.E.(E&I) and P.T.B.E Degree)

Objective: To study the principle and operation of various electronic circuits used in industrial applications.

UNIT I

Induction and di-electric Heating - Conversion system for the production of high frequency power forinduction and di-electric heating - Induction heating - effect of frequency and power requirements - Di-electric heating - frequency and power requirements – Applications (10)

UNIT IIZero voltage switching of Thyristor - Static AC and DC switches - DC static switch- DC latching relay -Time delay circuits using ICs- Switching regulators and Switched mode power supplies-Solid state tapchanging of transformers- Opto couplers –Battery charging regulator. (10)

UNIT IIIElectronic control of resistance welding - Resistance welder systems - Synchronous control circuit -Followup control - Timing the sequence of operation - Weld heat control - Energy storage welder systems. (10)

UNIT IVNoise and vibration measurement - Stroboscope - X-ray inspection - Mass spectrometer- proximity control-Thermometry - Flow meter - Photo electric applications in industries - strain gauge - smoke detector -electrostatic precipitator. (10)

UNIT VElectronic motor control using thyristors and microprocessors - Speed control of motors - Soft start motorcontrol - Industrial applications of micro waves - Heating, Measurement of thickness, diameter - Dopplermotion sensors. (10)

Text Books:1. S.K.Bhattacharya & Chaterjee- Industrial Electronics and control- Tata McGraw Hill

publishers,1995.2. G.K.Mithal- Industrial Electronics, Khanna Publishers, Delhi, 1996.

Reference books:1. Ralph Benedict & Nathan Weiner - Industrial Electronic Circuits and Applications, Prentice

Hall Publishers,1987.2. K.C.Gupta - Micro waves, Allied Publishers,1991. 3. Ray mondl & Ramshaw - Power electronics - ELBS Edition,1992

Specialization


Lecture


Subject code E7C Q6C 3 1 0 4

E7C/Q6C/EI7G INTERNET AND JAVA PROGRAMMING(Common to B.E.(EEE),B.E(E&I) and P.T.B.E Degree)

Objective – To enable the students learn the internet services, protocols and programming using Java andscripting languages

UNIT IHistory of the Internet -Overview of OSI model - internet working with TCP / IP - address - DomainName system (DNS) - sockets and socket API - telnet - FILE Transfer Protocol (NNTP) - Gopher protocol- Hyper Text Transfer Protocol - (HTTP) - www - Internet Browsers - URL - HTML - Body and Textcommands - Basic paragraph and text legs - text style - colour values - hyper links - images - HTMLinteraction and enhancements - cables - audio - video - frames.

(10)UNIT II

Java Basics - Data types variables and arrays - operators - control statements - classes and methods -Inheritance - Exception Handling - Multithreaded programming - string handling packages.

(10)UNIT III

Java appletsNetworking - windows - graphics and multimedia with JAVA - Use of Java applets in web page creation -Java Beans; properties and methods - the event model - introspection - customers and property editors -persistent storage - developing packages. (10)

UNIT IVJava Script - Objects, names, literals - operators and expression - statements - functions - events -windows - documents - forms.PERL - Data types - statements - I/O - built in function - Regular expressions- subroutines - objectoriented programming CGI Programming with Java script and PERT.

(10)

UNIT VVB Script - Variables, operators, intrinsic functions - procedures - intrinsic HTML from controls - buttoncontrols - Active X : Building a Basic Control - OLE and Active X - HTML and Active X - www Servers:www, apaches- VDO live technology - Real audio and video in the internet - Email and Fax. (10)

Text Book : 1.Bob Breedlov et al, and James Gosling, “The Programming Language”, Addision Wesley, SecondEdition, 1998.Reference Books :1.Ken Arnold and James Gosting, “The Java Programming Language”, Addison Wesley, Second Edition,1998.2.Mueller. J.P., “Active X from the Ground up”, Tata McGraw Hill, 1995.

Specialization


Lecture


Subject code E7D Q6D 3 1 0 4

E7D/EI7E/Q6D ARTIFICIAL INTELLIGENCE(Common to B.E.(EEE) and P.T.B.E. Degree)

Objective – To enable the students learn the fundamental concepts of artificial intelligence andcharacteristics of AI languages

UNIT I

Background history - Intelligence through Computation - What is AI? – Why AI is difficult? - Puzzlesolving and intelligence - Tic Tc Toe Model, criteria for success. (10)

UNIT IIProblem Solving - Defining the problem as a state space search - Water - Jug problem - production systems- Control strategies - Breadth first search, Depth first search and Best first search - Problem characteristics -Characteristics of production systems. (10)

UNIT III

Introduction to representation - Representing simple facts in Logic - Computable Functions and predicates- Propositional logic - Predicate logic - Question answering - Natural deduction - Nonmonotonic reasoning- Statistical & probabilistic reasoning - Rule Based systems. (10)

UNIT IVCommon knowledge structures - Level of representation - Declarative representation - Semantic Networks- Search - Inheritance, Frames - Properties - Uses scripts - Procedural representations. (10)

UNIT VCharacteristics of AI languages - Basic Ideas of PROLOG - Classes, facts goals, rules - Comprehensiveexamples using recursion cut, Basic Ideas of LISP, Eval, Lists, and function definitions - LISP syntax ingeneral - Simple example in LISP. (10)

Text Books:1. Elaine Rich, Kevin Knight, Artifitial Intelligence, Tata McGrawHill II edition,

1991. 2. P.N.Winston, LISP, Addison Wesley, 1984.

3. Turbo Prolog; An Introduction, Townsend, BPB publications,1986.

Reference Books:1. Robert J.Schalkoff, Artificial Intelligence; An Engineering Approach, McGrawHill, 1990.2. Partik Henry Winston, Artificial Intelligence, Addison Wesley, 1984.

Specialization


Lecture


Subject code E7E Q6E 3 1 0 4

E7E/Q6E ELECTRO CHEMICAL ENGINEERING(Common to B.E.(EEE) and P.T.B.E. Degree)

Objective: To study the principle of various electro chemical process and its application to engineering.

UNIT IElectrolytic finishing of metals - Electro deposition of metals - metal surface preparation by cleaning,pickling and dipping - Electrolytic bath - throwing power, current density and current efficiencycalculations- Electro plating of copper, nickel, chromium, silver and gold - plating of plastics - Electrolessplating - Anodising of Aluminium. (10)

UNIT IIElectroforming - Advantages of Electroforming - Electroforming solutions - mandrel preparation -applications of electroforming - electroforming of Copper, Nickel and Silver - electrotyping. (10)

UNIT IIIElectrochemical machining - plant - power supplies - electrolytes - dimensional accuracy and surface finish- design of tools - electrochemical grinding - applications - Corrosions. (10)

UNIT IV

Electrochemical Industries -Aluminium, Magnesium, Titanium - Chlor - Alkali Industries - processflowsheets - cells - Electrodes for above processes.Batteries - Secondary cells - Lead-acid, Nickel - Cadmium, Lithium cells - Charging - Dischargingreaction - applications. (10)

UNIT VFuel cells - Principles - types - applications.Power supply system for electrochemical industries - Low voltage - High current D.C. generators -silicon rectifiers - Busbars - Design and applications in Electrochemical Industries. (10)

Text and Reference Books:

1. A.T.Kuhn - Industrial Electrochemical processes , Elsevier Publising Co., Amsterdam, 19712. C.L.Mantel - Electrochemical Engineering, Mc Graw Hill Co., Tokyo,1989 3. William Blum & George Hegaboom - Principles of Electroplating and Electroforming -

Mc Graw Hill Book Co., Newyork, Third Edition ,19914. Fredrick A.Lowenheim - Modern Electroplating, John Wiley & sons, Inc., Newyork,1992.

Specialization


Lecture


Subject code E7F Q6F 3 1 0 4

E7F/Q6F/EI8H OPERATING SYSTEMS(Common to B.E.(EEE) , B.E (E&I)and P.T.B.E Degree)

Objective: To study the basic concept of operating system and utilize knowledge for the effective use ofthe computers.

UNIT I

Introduction - Early History - Parallel Computation - Input - Output trends - Open Systems - Ethicalissues - Hardware - Software - Firmware. Definitions of process - Process states, State transitions - Process Control Block (PCB) - Operationson processes - Interrupt processing - Nucleus of the operating system. (10)

UNIT IIAsynchronous concurrent processes - Parallel processing - Parbegin / Parend - Mutual exclusion -Critical sections - Mutual exclusion primitives – Primitives - Dekkar's algorithm - Peterson's algorithm -N-Process mutual exclusion - Test and set instruction - Semaphores.Concurrent programming - Critical and conditional critical regions - Monitors - Path expressions - MessagePassing.Deadlock and indefinite partponement - Necessary conditions for deadlock - Major areas of research -Deadlock prevention - Deadlock avoidance - Banker's algorithm - Deadlock detection - Deadlockrecovery . (10)

UNIT IIIReal storage - Organization - Management - Hierarchy - Management Strategies - Continguous and Non-Continguous allocation - Fixed partition and variable partition - multiprogramming - storage swapping.Virtual Storage - Basic Concepts - Multilevel Storage Organization - Block Mapping - Paging -Segmentation - Paged Segmentation systems.Virtual Storage Management strategies - Page replacement strategies - Locality - Working sets - Pagefault frequency page replacement - Demand paging - Antic - Page release - page size - Programbehaviour under paging. (10)

UNIT IVJob and processor sheduling - Levels - Objectives - Criteria - Pre emptive and Non-Preemptivescheduling - Priorities - Deadline scheduling - FIFO - RR - SJF - SRT - HRN - Multilevel feedbackqueues - Fair share scheduling. Disk performance optimization - Operation of moving head disk storage -Need for disk scheduling - Desirable characteristics - Seek optimization - Rotational Optimization -Systems consideration - Disk caching - Other techniques - RAM disks - Optical disks. File and database systems - File system functions - Data hierarchy - Blocking and buffering - Fileorganization - Queued and basic access methods - Allocating and freeing space - File description -Access control matrix - Access Control by user classes - Background recovery - File servers-Distributed file systems - CD_ROM , WORM and Magnetic Laser disks - Database systems DatabaseModels. (10)

UNIT VOperating system security - Requirements - Approach - External and operational security - survellience -Threat monitoring - Amplification - Password protection - Auditing Access Controls - Security kernals -Hardware Security .

Case study: UNIX - History - Shell - Kernel - File system - Process Management - Memory Management -I/O System – Sun OS Operating System - Distributed UNIX systems - Standardization and open systems –The future of UNIX systems. (10)

Text Book:H.M.Deital - Operating Systems - Second Edition, Addison - Wesley Publishing Company - 1990.(Chap : 1-4, 5.1-5.5. 6-10,12-13, 17.1 - 17.13, 18.)

Reference Book:Andrew S.Tanenbaum – Operating systems : Design and implementation – PHI Pvt. Ltd., 1990.Madnick and Donovan – Operating systems Theory, McGraw Hill publishing company.,1992.

Specialization


Lecture


Subject code E7G Q6G 3 1 0 4

E7G/Q6G COMPUTER PERIPHERALS

Objective – To make the students learn the PC architecture and various components and their interconnections

UNIT I

IBM PC architecture – I/O Bus – Overview of ISA, PCI and local bus – Memory – RAM – SIMM – EDO– FPM – SDRAM – SGRAM – level 1 and level 2 cache memory. (10)

UNIT IIMother board – Comparison of Intel processors 8088, 80286, 80386, 80486, Pentium, Pentium Pro,Pentium MMX, Celeron, PII and PIII Xeon – Form factors – Coprocessor – BIOS – Flash BIOS –Introduction to BIOS interrupts and services. (10)

UNIT IIIHard disk – Hard disk drive components – Geometry – Interleave – Skew – LBA – Zone

bit recording – Interfaces – IDE – SCSI – Ultra fast wide SCSI – LUN and LSUN – Partitioning –logical working of hard disk – Floppy drive subsystem – FDC and CPU interfacing . (10)

UNIT IVMonitor – Principle – Scanning – Horizontal and Vertical deflection circuits – Video driver –Display adapter – VGA – SVGA – VESA – AGP – Impact and Non-impact printers – Dot matrix,Laser and Inkjet printers – Centronics interface. (10)

UNIT VKey board interface – Serial interface – RS232C Standard – USB – Mouse – Modem principlesand standards – Computer Networks – LAN, WAN. (10)

Text Books :

1. Scott Mueller – Upgrading and repairing PCs – 8th Edition, PHI pvt., ltd., 1998.

2. Manahar Lotia, Pradeep Nair and Bijal Lotia – Modern all about hard disk drive – BPB publications,1997. (For hard disk part of unit III)

3. Andrew S. Tanenbaum – Computer Networks – 2nd Edition, PHI pvt. Ltd., 1995. (For network part ofunit V)

Reference Books:1. B.Govindarajulu - IBM PC and Clones – Tata McGraw Hill publishing company ltd., 1993.2. Douglas V.Hall- Microprocessor and Interfacing- Programming and hardware – Tata McGraw Hill

publishing company ltd.,1997.3. Manhar lotia Pradeep Nair- Modern all about floppy disks and drives- BPB publications, 1995.

Manahar lotia, Pradeep Nair and Bijal lotia-Modern all about printers-BPB publications,1996.

Specialization


Lecture


Subject code E7H Q6H 3 1 0 4

E7H/Q6H ROBOTICS(Common to B.E. and P.T.B.E Degree)

Objective – To understand the definition, components, classifications, sensors, kinematics, programming,control and applications of Robots

UNIT I

Introduction – Robotics and programmable automation – Historical background – Laws ofRobotics – Robot definitions – Robotics system and Robot anatomy – Specifications of Robots –Safety measures in Robotics. Robot kinematics – forward and reverse kinematics of three and four degrees of freedom robotarm – Homogeneous transformation – Kinematics equations using homogeneous transformation.

(10)UNIT II

Robot drives, actuators and control – Functions of drive systems – General types of fluids – Pumpclassification – Pneumatic systems – Electrical drives – DC motors – Stepper motors – Drive mechanism.Robot end effectors – Classification – Drive system for grippers – Mechanical grippers – Magneticgrippers – Vacuum grippers – Adhesive grippers – Gripper force analysis and gripper design.

(10)UNIT III

Sensors and intelligent robots. Artificial intelligence and automated manufacturing – AI and robotics –Need for sensing systems – Sensory device – Types of sensors – Robot vision systems – Low level visionand high level vision. (10)

UNIT IVRobot language and programming. Robot language – Classification of Robot languages – Computercontrol and robot software – VAL system and language. Application of Robots: Capabilities of Robots –Robotics applications – Obstacle avoidance.

(10)

UNIT VRobot intelligence and task planning – State space search problem reduction – Use of predicate logic –Means and Ends analysis – Problem solving – Robot learning – Robot task planning – Basic problems intask planning. (10)

Text Books:1. Satya Ranjan Deb, Robotics technology and flexible automation, Tata McGraw Hill, 1998.2. Mikell P. Groover, M. Weiss, R. N. Nagal, N. G. Odrey, Industrial Robotics, McGraw Hill

International, 1986.

Reference Book:Fairhurst, Computer vision for Robotics systems – An introduction, Prentice Hall, 1988.

Specialization


Lecture


Subject code E7I Q6I 3 1 0 4

E7I/Q6IHIGH VOLTAGE ENGINEERING(Common to B.E.(EEE) and P.T.B.E Degree)

Objective: To impart knowledge on the breakdown mechanisms of different dielectric materials. Tounderstand the concept of HV Generation, Measurement and testing in the HV laboratories

UNIT IConduction and Breakdown in Gases :

(periods)Ionization process - Townsend's Criterion for breakdown - Electronegative gases - Time lag for breakdown– Streamer theory - Paschen's law - post breakdown phenomena and application – Vacuum insulation andbreakdown. (10)

UNIT II Conduction and breakdown in liquid and solid dielectrics :Pure liquid - commercial liquid - conduction & breakdown in pure and commercial liquids.Solid Dielectrics – Intrinsic break down – Electromechanical breakdown – Thermal breakdown –Breakdown in composite Dielectrics. (10)

UNIT IIIGeneration of High voltages and currents :Generation of DC voltage – High Alternating voltage – Impulse voltage – Impulse current – Tripping andcontrol of Impulse generator.

(10)UNIT IV

Measurement of High voltage & Current :

Measurement of high DC voltage – High AC and Impulse voltage – High DC, AC and Impulse current –CRO for Impulse voltage and current measurements.

(10)

UNIT V

High voltage testing of electrical equipment :

Testing of Insulators - Bushings - Isolators and Circuit Breakers – Cables – Transformers – SurgeDiverters. High voltage laboratories :Test facilities – Activities – Classification – Grounding – Size – Ratings. (10)

Text Book:M.S.Naidu and V.Kamaraju - High voltage engineering - Tata Mc.Graw hill Publishing companyLimited, New Delhi, 2nd Edition – 1998.

Reference Book:C.L.Wadhwa - High voltage engineering - Wiley eastern limited, New Delhi, 1st Edition, 1994.

VIII SEMESTER

Specialization


Lecture


Subject code E81 Q7J 3 1 0 4

E81/Q7J POWER SYSTEM OPERATION AND CONTROL(Common to B.E.(EEE) and P.T.B.E Degree)

Objective: To impart power system operation and control concepts to students.UNIT I

General characteristics of modern power systems, evolution, structure, power system control, Operatingstates of a power system and control strategies, Design and operating criteria for stability. Transfer ofpower between active sources, Control of active power and reactive power - Active power and frequencycontrol, Fundamentals of speed governing - Generator response to load change, Load response tofrequency deviation, Isochronous governor, Governors with speed-droop characteristics - Time response -Control of generating unit power output - actual speed droop characteristics - Composite regulatingcharacteristics of Power systems.

(10)UNIT II

Fundamentals of automatic generation control (AGC) - AGC in isolated power systems - AGC ininterconnected power systems - Frequency bias tie line control - Basis for selection of bias factor - Systemswith more than two areas - Performance of AGC under normal and abnormal conditions - Economicallocation of generation - Implementation of AGC – Under frequency load shedding. (10)

UNIT IIIDevelopment of dynamic state variable model for two area system - Optimum control criterion - Optimumcontrol strategy - Reactive power and voltage control - Production and absorption of reactive power -Methods of voltage control - Shunt reactors, Shunt capacitors, Series capacitors, synchronous condensers

(10)UNIT IV

Static Var Systems - Types of SVC - Fundamental frequency performance of SVC - Application of StaticVar compensators - Principles of transmission system compensation - Modeling of reactive compensatingdevices - Application of tap-changing transformers to transmission systems - Distribution system voltageregulation - Modeling of transformer ULTC control systems (10)

UNIT VExcitation systems requirements - Elements of an excitation system - Types of excitation systems - DC,AC, Static and recent developments and future trends - Dynamic performance measures - Large signal,Small signal - Control and protective functions - AC and DC regulators, Excitation system stabilisingcircuits, Power system stabiliser, Load compensation, Under excitation limiter, Over excitation limiter,Volts-per-hertz limiter and protection, Field shorting circuits. (10)

Text Books :

1. Prabha Kundur - Power System stability and control - EPRI Series - McGraw Hill Inc., 1994

2. O.I.Elgerd - Electrical Energy System Theory : An introduction - Tata McGraw Hill Publication, 1983Edition.

Reference Books :1. PSR Moorthy - Power System Operation & Control,19922. Dr S Mukhopadhyaya - Modern power system control and operation, Roorkee Publishing House,

Roorkee, 1983Edition3. Hadi Saadat, Power system analysis, WCB, McGraw Hill International Edition, 1999

Specialization


Lecture


Subject code E8A Q7A 3 1 0 4

E8A/Q7A DESIGN, ESTIMATION & COSTING(Common to B.E.(EEE) and P.T.B.E Degree)

Objective: To impart knowledge on the design, estimation of electrical wiring, cabling & erection work forIndustrial and commercial building.

UNIT I

Introduction to Electrical System design, Estimation & costingElectrical Symbols and standards - Need of Electrical Symbols - list of symbols - Electrical diagrams -methods of representation for wiring diagram. (10)

UNIT IIDesign considerations - General requirements of Electrical installation for residential, commercialbuildings and small industries - Earthing - Testing of installations - Systems of wiring - service connectionsand service mains - sub circuits (10)

UNIT III Location of outlets, control switches, main board and distribution board - Guidelines for installation offittings - permissible voltage drops and size of wires and cables - Indian electricity rules applicable to theabove provision. (10)

UNIT IVElectrical Installation - Computer aided Design, estimation and costing of electrical installation forresidential, commercial building and small industries –Installation of XLPE cables- Installation planschematic and wiring diagram. (10)

UNIT VDeciding the No. of circuits, sub circuits, size of conduits, wires and cables - Calculation of length of wire& cable required, deciding the switch boards and distribution boards, Total cost of installation

(10)Note:

1. The schedule of rates for the various electrical materials is to be supplied to the candidates to arrive withthe total cost of installation.

2. Drawing sheet is to be provided to the candidates to answer the question under Part B.

Text Book:1. K.B.Raina & Battacharya - Electrical design, Estimating and costing , Willey Eastern Limited.

Reference Books:1. S.L.Uppal - Electrical wiring, Estimating and Costing , 2nd Edition, Khanna Publishers.19982. Arora - Electrical Wiring and Estimating with Practicals, R.B.Publications, Delhi, 20013. F.G.Thompson - Electrical Installation and workshop Technology, Vol. I - fourth edition, Longman

Incorporation, Newyork, 20024. J.B.Gupta - A Course in Electrical Technology - Vol. I, Katson Publishing House, 1997.

Specialization


Lecture


Subject code E8B Q7B 3 1 0 4

E8B/Q7B- OPERATION & MAINTENANCE OF ELECTRICAL EQUIPMENT(Qualitative treatment only)


Objective: To impart knowledge in the Operation & Maintenance of electrical Equipments & Methods ofTrouble.

UNIT IMaintenance - Importance of plant maintenance, Types - Preventive, Break down and Productionmaintenance, Maintenance records, Role of maintenance engineer, cause of accidents and prevention.

Building Electrical installations - Annual inspection, safe working of electrical equipment and safety,Earthing arrangements. (10)

UNIT IIGenerator, Substation and Switch Gear - Operation procedure, Routine & Breakdown Maintenance,Causes of failure and Precautions measure. (10)

UNIT IIITransformer - Operation, Insulation, Co-ordination & Impulse voltage testing, Lightning arrestermaintenance & trouble shooting, Oil purification & Testing. (10)

UNIT IVTransmission and Distribution - Rules for low, medium and high voltages, Factor of safety, Specialprecautions, Minimum clearance, Conductors, System protection, Lightning arrester, Methods of layingUnder ground cable and fault location.Illumination - Special lighting applications, Installations, Trouble shooting, Modern developments.

(10)UNIT V

DC & AC Motors & Starters - Operation procedure, Routine & Breakdown Maintenance, Causes offailure and Precautions and Trouble shooting - Trouble shooting in pump motors. (10)

Text Book:1. V.S.Rao - Operation & Maintenance of Electrical Equipment - Volume I & II, 1997 Edition, Media

Promotors & Publishers Pvt. Ltd., Mumbai

Reference Books:1. T S Viswanathan & P Ramachandran - Control & Maintenance of Electrical Machines, 1998

Edition, Priya Publishers, Trichy2. S.Rao - Testing Commissioning and Maintenance of Electrical Equipment, Fifth Edition, 1997,

Khanna Publishers, Delhi - 6.

Specialization


Lecture


Subject code E8C Q7C 3 1 0 4

E8C/Q7C/EI7I COMPUTER NETWORKS(Common to B.E. (EEE), B.E.(E&I) and P.T.B.E. Degree)

Objective: To impart knowledge about the concepts, design and operation of various types of powerplants.

UNIT IIntroduction - Goals and applications of Networks, Network structure and architecture. The OS1 referencemodel, services, Physical Layer- Transmission Media, switching methods, ISDN services, TerminalHandling. (10)

UNIT IIMedium access sublayer and data link layer - Medium Access sublayer- Channel allocations, LAN-Topolgy- Protocols-ALOHA protocols- Token bus and token ring protocols- Overview of IEEE standards-FDDI. Data link layer- Design issues- error detection and correction- elementary data link protocols,sliding window protocols. (10)

UNIT IIINetwork and Transport Layer - Network layer - Design issues, remote procedure call, Presentationlayer- Design issues, data compression techniques, cryptography.

(10)

UNIT IVSession and Presentation Layer - Session Layer- Design issues, remote procedure call, presentation layer-Design issues, data compression techniques, cryptography. (10)

UNIT VApplication Layer - Application layer- Design issues- File Transfer, Access and management , Electronicmail, Virtual Terminals, Other applications. Example Networks- Internet and Public Networks- arc net,Ethernet. Introduction to TCP/IP (10)

Text Books:1. Tanenbaum.A.S.- Computer Networks- Third Edition, Prentice Hall of India, 1996.

Reference Books:1. Stallings. W. – Data and Computer communication- PHI, 5 th Edition, 1989.2. Bertsekas.D. And R.Gall- Data Networks-PHI, 2 th Edition,19893. Ahuja.V, Design and Analysis of Computer Networks communications Networks, McGrawHill,

1985.

Specialization


Lecture


Subject code E8D Q7D 3 1 0 4

E8D/Q7D HIGH VOLTAGE TRANSMISSION(Common to B.E.(EEE) and P.T.B.E Degree)

Objective: To impart knowledge about HVDC systems and EHV-AC system.

UNIT IIntroduction - Historical development - Comparison between AC and DC transmission - kinds of DC links

(10)

UNIT IIThree phase fully controlled thyristor bridge converters - Equivalent circuits - Characteristics of Converters- Gate control - Basic means of control characteristics - Constant current control - Constant extinctionangle control - Harmonic analysis - Filters. (10)

UNIT IIIBasis of protection of HVDC systems - DC reactors - voltage and current oscillations - Clearing line faultsand re-energizing the line - Over voltage protection.Introduction of HVAC transmission - Transmission voltages - average values of line parameters - Powerhandling capacity and line loss - Costs of transmission lines and equipments - Mechanical considerations inline performance.

(10)

UNIT IVOrigin of over voltages and their types - Short circuit current and circuit breaker - Recovery voltage - Ferroresonance over voltages - Calculation of switching surges - Single phase equivalents - Generalizedequations for single phase and three phase representations. (10)

UNIT VProblem at power frequency - Generalized constants - No load voltage conditions and charging current -Power circle diagram and its use - Voltage control using synchronous condenser - Shunt and seriescompensation - Sub synchronous resonance in series capacitor compensated lines - Flexible ACtransmission. (10)

Text Books:1. E.W.Kimbark, Direct Current Transmission, Vol. I, Wiley Interscience, New York, 1971.2. K.R.Padiyar, HVDC Power Transmission System Technology and System Interactions, Wiley

Eastern Ltd., 1991.

3. Das Begamudre - Extra High voltage AC Transmission, Rakosh Wiley eastern Ltd., New Delhi,1986.

Reference Books:1. Colin Adamson, and N.G.Hingorani, High Voltage Direct Current Power Transmission,

Garraway Limited, England, 1960.2. B.J.Kory (ed), High Voltage Direct Current converters and Systems, Macdonald & co., London,

1965.3. B.M. Weedy, Electric Power Systems, John Wiley & Sons, London, 1979.

Specialization


Lecture


Subject code E8E Q7E 3 1 0 4

E8E/Q7E NON LINEAR SYSTEMS

Objective: To introduce characteristics of nonlinear systems, mathematical model of various nonlinearelements, analysis techniques and stability.

UNIT I

Introduction, Characteristics of Non linear systems, Jump resonance, Sub-harmonic oscillations, Limitcycles, Frequency entertainment quenching, Non-linearities - inherent and intentional. (10)

UNIT IIPhase plane analysis, Singular points, Sketching of phase portraits, Limit cycles, nonlinear conservativesystem with nonlinear damping. Effect of non-linearities on the step response of the position control andrelay systems. (10)

UNIT IIIDescribing function techniques - Describing functions of nonlinear characteristics, Expression for thefunctions, Accuracy of describing function methods, Describing functions for multiple non linearities,Evaluation of the gain function for analytically and graphically defined characteristics.

(10)

UNIT IVExperimental determination of gain functions, Condition for stability, stability of oscillations, Stability ofsystems with multiple non-linearities, Closed loop frequency response, Transient response, Dual inputdescribing functions. (10)

UNIT VLyapunov's and Popov's stability criteria, Linearisation and stability in the small and large sense, Secondmethod of Lyapunov, Variable gradient methods, Lure's problem, Popov's stability Theorem.

(10)Text Book:

1. H.Khalil - Non linear Systems, Macmillan Pub. Company, New york, 1992 .Reference Books: 1. I.J.Nagrath and M.Gopal - Control System Engineering, John Wiley Publishing Ltd., 19932. Ogata - Modern Control Engineering, Prentice Hall India, 1991

Specialization


Lecture


Subject code E8F Q7F 3 1 0 4

E8F/Q7F ADVANCED CONTROL TECHNIQUES

Objective: To introduce various adaptive control techniques like self tuning, Model reference adaptive andfuzzy logic controllers.

UNIT I

Introduction to Adaptive and Self tuning control - applications - Definitions - Types of adaptive control -Gain scheduling - Model Reference Adaptive Control (MRAC), Self Tuning Control (STC) (10)

UNIT IIModel Reference Adaptive Control - Classification - Direct and indirect MRAC - Continuous time MRAC- Discrete time MRAC. (10)

UNIT IIIReal time parameter estimation - Implicit and explicit STC - Minimum variance STC, Pole assignmentSTC - Self tuning PID - STC for Multivariable systems (10)

UNIT IV

Introduction to Fuzzy control , Review of crisp set theory - Basic concepts of Fuzzy sets - Fuzzy logic -operation on fuzzy sets, Definition and terminology - Fuzzy relations- Fuzzy conditional statements -Fuzzy rules - Fuzzy algorithms . (10)

UNIT VFLC - Fuzzification interface - knowledge base - Decision making logic - Defuzzification Interface,Application of Fuzzy logic to Cart Controller, Truck & Trailer controller and Process Controller. (10)

Text Books:

1.A Strom, K.J. & Wittenmark, B. - Adaptive control, Addition Wesley Publishing Co., U.S.A., 19892.Bark Kosko - Neural Networks and Fuzzy Systems, Printice Hall of India, 1992Reference Books:

1. Chalam V.V. - Adaptive control system, Marcel Dekkar Inc., New York, 1987.2. Harris & Billings S.A. - Self tuning and adaptive control, Peter Bregrinus Ltd., 1981.3. Klir G.J. - Fuzzy Sets, Uncertainty and Information, Prentice Hall of India, 1991.4. Lee C.C. - Fuzzy Logic in Control Systems ; Fuzzy Logic Controller - Part I & II, IEEE, Trans., system

man Cybernetics Vol. 20, PP. 404 - 418, 419 - 435, 19905. King P.K. - The Application of Fuzzy Control Systems to Industrial Process, IEEE, Automatica, Vol. 13,

PP. 235 - 242, 19776. D.Drain Kov, H.Hellendoorn & M.Reinfrank - An Introduction to Fuzzy Control, Narosa publishers,

1996.

Specialization


Lecture


Subject code E8G Q7G 3 1 0 4

E8G/Q7G DATABASE MANAGEMENT SYSTEMS(Common to B.E.(EEE) and P.T.B.E Degree)

Objective – To make the students learn the fundamental principles of data bases, models, query processingand transactions.

UNIT I

Introduction - Purpose of Database Systems - View of data - Data Models - Database languages -Transaction Management - Storage Management - Database Administrator - Database Users - OverallSystem Structure.Entity Relationship Model - Basic Concepts - Design Issues - Mapping Constraints - Keys - Entity-Relationship Diagram - Weak Entity Sets - Extended E-R Features - Design of an E-R Database Schema- Reduction of an E-R Schema to tables. (10)

UNIT IIRelational Model - Structure of Relational Databases - The relational Algebra - The Tuple RelationalCalculus - The Domain Relational Calculus - Extended Relational - Algebra Operations - Modification ofthe Database - Views.SQL : Background - Basic Structure - Set Operations - Aggregate Functions - Null values - Nestedsubqueries - Derived Relations - Views - Modification of the Database - Joined Relations - DataDefinition Language - Embedded SQL - Other SQL Features . (10)

UNIT IIIIntegrity Constraints - Domain Constraints - Referential Integrity - Assertions - Triggers - FunctionalDependenciesRelational Database Design - Pitfalls in Relational Database Design - Decomposition - NormalizationUsing Functional Dependencies - Normalization using Multivalued Dependencies - Normalization UsingJoin Dependencies - Domain-key Normal Form - Alternative Approaches to Database Design.Storage and File Structure : Overview of Physical Storage Media - Magnetic Disks - RAID - TertiaryStorage - Storage Access - File Organization - Organization of Records in Files - Data-DictionaryStorage . (10)

UNIT IV

Indexing and Hashing - Basic Concepts - Ordered Indices- B+.Tree Index Files - B_Tree Index Files -Static Hashing - Dynamic Hashing - Comparison of Ordered Indexing and Hashing - Index Definition inSQL - Multiple-Key Access.Query Processing - Overview - Catalog Information for Cost Estimation - Measures of Query Cost -Selection Operation - Sorting - Join Operation - Other Operations - Evaluation of Expressions -Transformation of Relational Expressions - Choice of Evaluation Plans

(10)UNIT V

Transactions - Transaction Concept - Transaction State - Implementation of Atomicity and Durability -Concurrent Executions - Serializability - Recoverability - Implementation of Isolation - TransactionDefinition in SQL - Testing for Serializability.

Concurrency Control - Lock-Based Protocols - Timestamp-Based Protocols - Validation-BasedProtocols - Multiple Granularity - Multiversion Schemes - Deadlock Handling - Insert and DeleteOperations - Concurrency in Index Structures.Recovery System : Failure Classification - Storage Structure - Recovery and Atomicity - Log-BasedRecovery - Shadow Paging - Recovery with Concurrent Transactions - Buffer Management - Failurewith Loss of Nonvolatile Storage - Advanced Recovery Techniques. (10)

Text Books:1. G.J.Date – An introduction to database system – Addision Wesley Publishing company -Narosa,

Vol. I, 3RD Edition, 19892. Stefeno Ceri & G. Pelagatti – Distributed data principles and systems – International student

edition, Tata Mcgraw Hill, 1985 [Chapter 1,2,3]

Reference Book:1. Gio Wiederhold – Database design - International student edition, Tata Mcgraw Hill, 1985

Specialization


Lecture


Subject code E8H Q7H 3 1 0 4

E8H/Q7H/EI8E SOFTWARE ENGINEERING(Common to B.E.(EEE),B.E.(E&I) and P.T.B.E Degree)

Objective – To expose the students to the principles of software engineering, project planning and objectoriented analysis and design

UNIT I

The Product : The evolving role of software - An industry Perspective - An aging software plant -Software Competitiveness - Software Characteristics - Software components - Software Applications -Software - A Crisis on the horizon - Software Myths Software Process and project metrics : Measuresmetrics and indicators - Metrics in the process and project domains - Process Metrics and SoftwareProcess improvement - Project metrics - Software Measurement - Size oriented metrics - Function orientmetrics - Extended function point metrics - Reconciling different metrics approaches - Metrics forsoftware quality - An overview of factors that affect quality - Measuring quality- Defect removalefficiency - Integrating metrics within the software process.

Software Project Planning : Observations on estimating - project planning objectives - softwarescope - Obtaining information Necessary for scope - A Scoping example - Resources - Human resources- Reusable software resources - Environmental resources - Software Project Estimation -Decomposition techniques - Software sizing - Problem based estimation - An example of LOC - BasedEstimation - An example of FP - Based Estimation - Process based estimation - An example of processbased estimation - Emprical estimation models - The structure of estimation models - The cocomo model- The software equation - The make-buy decision - Creating a decision tree - Outsourcing - Automatedestimation tools. (10)

UNIT IISoftware Quality Assurance : Quality concepts - Quality - Quality control - Quality assurance - Cost ofquality - The quality movement - Software quality assurance - Background issues - SQA Activities -Software reviews - The review meeting - Review reporting and record keeping - Review guidelines -

Formal approaches to SQA - Statistical quality assurance - Software Reliability and availability -Software safety and hazard analysis The SQA plan - The ISO 9000 quality standards - The ISO approachto quality assurance systems - The ISO 9001 standard.

System Engineering : Computer Based systems - The system engineering hierarchy - Systemmodelling - Information engineering an overview - Product engineering an overview - Informationengineering - information strategy planning - Enterprise modeling - Business level data modeling -Business area analysis - Process modeling - Product engineering : System Analysis - Identification ofneed - Feasibility study - Economic Analysis - Technical Analysis - Modeling the system architecture -System modeling and simulation - System specification.

(10)

UNIT IIISoftware Testing Methods : Software testing fundamentals - Testing objectives - Testing Principles -Testability - Test Case Design - White box testing - Basis path testing - Flow graph notation cyclomaticcomplexity - Deriving test cases - Graph matrices - Control structure testing - condition testing - DataFlow testing - Loop Testing - Black box testing - Graph based testing methods - Equivalencepartitioning - Boundary value analysis - Comparison testing - Testing for specialised environments- Testing GUIs - Testing of Client/Server Arcitectures - Testing documentation and help facilities- Testing for real time systems. (10)

UNIT IVObject Oriented Analysis : Object oriented analysis - Conventional Vs OO approaches - TheOOA Landscape - Domain Analysis - Reuse and domain analysis - the domain analysis process -Generic components of the OO Analysis model - The OOA Process - use cases - class responsibility -collaborator modeling - defining structures and hierarchies - Defining subjects and subsystems - Theobject relationship model - The object behaviour model - Event identification with use classes - staterepresentation.Object Oriented Design : Design for Object Oriented systems - Conventional Vs OO approaches -Design issues - The OOD landscape - Generic components of the OO design model - The system designprocess - Partitioning the analysis model - Concurrency and subsystem allocation - The taskmanagement component - The data management component - The resource management component -The human - Computer interface component - Inter subsystem communication - Object designprocess - Object descriptions - Designing algorithms and data structures - Program components andInterfaces - Design patterns - Describing a design patterns - Using patterns in design - Object orientedprogramming . (10)

UNIT VClient / Server Software Engineering : The structure of client server systems - Software components forC/S systems - The distribution of software components - Guidelines for distributing applicationcomponents - Linking C/S software components - middleware and object request broker architectures- Software engineering for C/S systems - Analysis modeling issues - Design for C/S systems -Conventional design approches - Data base design - An overview of a design approach - Processdesign iteration - Testing issues - Overall C/S testing strategy - C/S testing tactics. (10)

Text Book:

1. Roger S.Pressman, Software Engineering A Practitioner's Approach, Fourth Edition, McGraw HillInternational Edition,1997.

Reference Books:

1. Pankaj Jalote - An Integrated Approach to Software Engineering - Narosa Publishers - 1994.

2. Martin L.Shooman - Software Engineering Design, Reliablity and Management - McGraw HillInternational Ed. 1983.

3. Stephen R.Schach, Classical and Object Oriented Software Engineering, Irwin McGraw Hill -1996.

Specialization


Lecture


Subject code E8I Q7I 3 1 0 4

E8I/Q7I POWER PLANT ECONOMICS(Common to B.E.(EEE) and P.T.B.E. Degree)

Objective: To impart knowledge on Economic operation of Power Systems.

UNIT-IConstraints in unit Co-ordination - Thermal unit constraints, hydro unit constraints, Co-ordinationequations and their Different methods of solution-Priority list methods

Load division, need for optimum scheduling –Generation scheduling without transmission losses-Heat rateand incremental cost curves- Effect of error in representation of economic dispatch- Recent direct methodsin power dispatches without considering line losses. (10)

UNIT-IIDevelopment of transmission loss formula - Transmission loss co-efficient formula and their uses-consideration of Incremental production costs and Incremental transmission losses.Methods of generation dispatch with transmission loss- short term generation dispatch. (10)

UNIT IIIEconomic dispatch - Transmission losses as a function of voltage phase angles- Online loss co-efficient s.Modified co-ordinations and their solutions. Combined real and reactive power dispatches. Use of tapchanging transformers and capacitors in economic studies (10)

UNIT IVHydro –thermal co-ordination - Long range and short range hydro scheduling- Short term Hydro thermalscheduling, gradient approach, hydro unit in series, pumped storage hydro plant. Iterative solution method

(10)UNIT V

Optimal power flow(OPF) - Formulation of OPF problem, cost minimization, loss minimization,successive LP methods. First order and second order gradient methods, Base point and participation factorapproaches. (10)

Text Books:1. L.K.Kirchmayer- Economic operation of Power systems- John Willy and sons,1958.2. L.K.Kirchmayer-Economic control of Interconnected Systems- John Will/and sons,1958.3. A.I. Wood and H.F. Wollen berg- Power generation, Operation and control- John Willy and sons,1984.

Reference Books:1. O.I. Elgerd- Electric energy systems theory- an Introduction- Tata Mc Graw Hill 2nd edition, 1982.2. V.Vanihov, Zhuravelu, T.Fillippov-Optimal operation of power plants and electric systems- Mir

Publishers, Moscow.3. T.T.Nagrath and D.P.Kothari- “Modern Power system Analysis”- Tata McGraw Hill Publishing co

Ltd., New Delhi- 6 th edition, 1987.

Reference Papers:1. Dr.P.S.Kannan and Dr.M.Ayyadurai- “Modified co-ordination equation for optimizing generation

schedules- Journal of Institution of engineers, India, vol 66, PT. EL 1, Aug 1985, PP 38-402. Dr.C.Planichamy and Dr.K.Srikrishna- “An elegant approach to optional real and reactive power

dispatch”- EPSA- Vol.16, 1989, pp 173-181.3. Dr.P.S.Kannan and Dr.B.N.Nityanandan- “Exact method of calculation of loss of economy with

modified co-ordination equation” – IE(India)- April 1988.4. Dr.P.S.Kannan and Dr.B.N. Nityananan – Modified Power balance equation for economic load

dispatch and optimum scheduling”-IE (India)- Aug. 1990.5. Dr.N.Ramaraj-“Direct method to optimizing generation schedule including transmission losses”-IE

(India) Vol.69, Aug.1988, Page 14 to 18.

B.E. Electrical and Electronics Engineering

Documents

himalaya publishing

remote procedure

full order

reduced order

solid state

delta connected

object oriented

object oriented