BE ECE Curriculum-2004 Full Time

7/30/2019 BE ECE Curriculum-2004 Full Time

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COLLEGE OF ENGINEERING, ANNA UNIVERSITY

PROPOSED CURRICULUM FOR

B.E - ELECTRONICS AND COMMUNICATION ENGINEERING

(8 - SEMESTER)

SEMESTER I (6+4)

CODE NO COURSE TITLE L T P C

THEORY

HS171 English I 3 1 0 4

MA171 Mathematics I 3 1 0 4

PH171 Physics I 3 0 0 3CY171 Chemistry I 3 0 0 3

GE171 Engineering Graphics 1 3 0 4

GE172 Fundamentals of Computing 3 0 0 3

PRACTICAL

PH172 Physics Lab 0 0 2 1CY172 Chemistry Lab 0 0 2 1

Engineering Practice 0 0 3 2

CS171 Computer Practice I 0 0 3 2

Total 16 5 10 27

SEMESTER II (7+2)


THEORY

HS181 English II 3 1 0 4

MA181 Mathematics II 3 1 0 4

PH181 Physics II 3 0 0 3

GE183 Environmental Science and Engineering 3 0 0 3Engineering Mechanics 3 1 0 4

EE181 Electronic Devices 3 0 0 3

EE182 Circuit Analysis 3 1 0 4

PRACTICAL

EC181 Computer Practice II 0 0 3 2

EE183 Electric Circuit Lab 0 0 3 2

Total 21 4 6 29


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SEMESTER III (6+3)


THEORY

MA271 Mathematics III 3 1 0 4

EE271 Electrical Machines 3 0 0 3EC271 Electromagnetic Fields and Waves 3 0 0 3

EC272 Electronic Circuits- I 3 1 0 4

EC273 Programming and Data Structures 3 0 0 3EC274 Signals and Systems 3 1 0 4

PRACTICAL

EE272 Electrical Machines Lab 0 0 3 2

EC275 Electronic Devices and Circuits Lab 0 0 3 2EC276 Programming and Data Structures Lab 0 0 3 2

Total 18 3 9 27

SEMESTER IV (6+2)


THEORY

MA281 Random Processes 3 1 0 4

EC281 Digital Electronics and System Design 3 1 0 4

EC282 Electronic Circuits II 3 1 0 4EC283 Linear Integrated Circuits 3 0 0 3

EC284 Transmission Lines and Wave Guides 3 0 0 3

EC285 Control Systems 3 1 0 4

PRACTICAL

EC286 Analog Circuits Lab 0 0 3 2EC287 Digital System Lab 0 0 3 2

Total 18 4 6 26


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SEMESTER V (6+4)


THEORY

GE381 Professional Ethics in Engineering 3 0 0 3

EC371 Communication Theory and Systems 3 1 0 4

EC372 Microprocessor and its Applications 3 0 0 3EC373 Digital Signal Processing 3 1 0 4

EC374 Computer Architecture and organization 3 0 0 3

EC375 Measurements and Instrumentation 3 0 0 3

PRACTICAL

EC376 Microprocessor and Control System Lab 0 0 3 2EC377 Digital Signal Processing Lab 0 0 3 2

EC378 Electronic System Design Lab 0 0 3 2

Communication Skill (no exam) 0 0 3 0

Total 18 2 12 26

SEMESTER VI (6+4)


THEORY

EC381 Digital Switching and transmission 3 0 0 3

EC382 Digital Communication 3 0 0 3EC383 Computer Networks 3 0 0 3

EC384 Medical Electronics 3 0 0 3

EC385 RF and Microwave Engineering 3 0 0 3Elective I 3 0 0 3

PRACTICAL

EC386 Communication System and Network Lab 0 0 3 2

EC387 Telematics and Medical Electronics Lab 0 0 3 2

Professional Skill (no exam) 0 0 3 0

Comprehension 0 0 3 1Total 18 0 12 23


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SEMESTER VII (6+3)


THEORY

EC471 Wireless and Mobile Communication 3 0 0 3

EC472 VLSI Design 3 0 0 3

EC473 Optical Communication and Networking 3 0 0 3EC474 Antennas and Wave Propagation 3 0 0 3

Elective II 3 0 0 3

Elective III 3 0 0 3

PRACTICAL

EC475 VLSI Design Lab 0 0 3 2EC476 Microwave and Optical communication Lab 0 0 3 2

Mini Project 0 0 6 3

Total 18 0 12 25

SEMESTER VIII (4+1)


THEORY

GE481 Total Quality Management 3 0 0 3Elective IV 3 0 0 3

Elective V 3 0 0 3

Elective VI 3 0 0 3

PRACTICAL

Project 0 0 12 6

Total 12 0 12 18

Total Credit: 201


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LIST OF ELECTIVES

COURSE L T P C

EC501 Operating systems 3 0 0 3

EC502 Object Oriented Programming 3 0 0 3

EC503 Artificial Intelligence 3 0 0 3

EC504 Neural networks and fuzzy systems 3 0 0 3EC505 Neural networks and its applications 3 0 0 3

EC506 Cryptography and network security 3 0 0 3

EC507 Parallel and distributed Processing 3 0 0 3EC508 Web Technology 3 0 0 3

EC509 Natural language processing 3 0 0 3

EC510 Advanced Microprocessors 3 0 0 3EC511 Power Electronics 3 0 0 3

EC512 Opto Electronic Devices 3 0 0 3

EC513 Advanced Electronic System Design 3 0 0 3

EC514 CAD for VLSI 3 0 0 3EC515 Real time Embedded Systems 3 0 0 3

EC516 Micro Electro Mechanical Systems (MEMS) 3 0 0 3

EC517 Avionic systems 3 0 0 3EC518 Satellite Communication 3 0 0 3

EC519 Radar and Navigational Aids 3 0 0 3

EC520 Electromagnetic Interface and Compatibility 3 0 0 3EC521 Telecommunication System Modeling and Simulation 3 0 0 3

EC522 Digital Image Processing 3 0 0 3EC523 Advanced Digital Signal Processing 3 0 0 3

EC524 Television and Video Engineering 3 0 0 3

EC525 RF system design 3 0 0 3EC526 Introduction to Speech technologies 3 0 0 3

EC527 Wireless Network 3 0 0 3

EC528 Space time wireless communication system 3 0 0 3EC529 Numerical Methods 3 1 0 4

EC530 Radiological Engineering 3 0 0 3

EC531 Hospital Management 3 0 0 3

EC532 Anatomy and Physiology 3 0 0 3EC533 Robotics 3 0 0 3

EC534 Medical Informatics 3 0 0 3

EC535 Bio Informatics 3 0 0 3

EC536 Acoustics and sound Engineering 3 0 0 3MG Entrepreneurship Development 3 0 0 3

MG Intellectual Property Right 3 0 0 3MG Indian Constitution and Society 3 0 0 3

MG Creativity, Innovation and New Product Development 3 0 0 3


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MA271 Mathematics III 3 1 0 4

1. PARTIAL DIFFERENTIAL EQUATIONS 9

Formation - Solutions of first order equations - standard types and Equations reducible tostandard types- Lagrange's Linear equation - Integral surface passing through a given curve

Solution of linear equations of higher order with constant coefficients.

2. FOURIER SERIES 9

Dirichlet's conditions - General Fourier series Odd and even functions-Half-range Sine and

Cosine series Complex form of Fourier Series- Parseval's identity - Harmonic Analysis.

3. BOUNDARY VALUE PROBLEMS 9

Method of separation of Variables - Solutions of one dimensional wave equation,-one-

dimensional heat equation - Steady state solution of two-dimensional heat equation - Fourierseries solutions in Cartesian coordinates

4. LAPLACE TRANSFORMS 9

Fourier integral theorem-Fourier transform pair-sine and cosine transforms - properties-transform of simple function-convolution theorem-parsevals identity

5. FOURIER TRANSFORMS 9

Z-transform-elementary properties-inverse z transform-convolution theorem-formation of

difference equation-solution of difference equation using z transform

L:45+T:15=60

TEXTBOOK:

1. Grewal, B.S., " Higher Engineering Mathematics " (35th Edition),Khanna Publishers, Delhi 2000.

REFERENCE:

1. Andrews, L.A. and Shivamoggi B.K.,Integral Transforms for engineers and appliedmathematicians,Macmillan, Newyork,1988.

2. Narayanan, S., Manicavachagom Pillay, T.K., Ramanaiah, G.," Advanced Mathematics for Engineering Students ", Volumes II & III(2ndEdition), S.Viswanathan (Printers & Publishers, Pvt, Ltd.) 1992.

3. Churchill,R.V and Brown J.W.,Fourier Series and Boundary Value Problem,

Fourth Edition, Mcgraw HillBook Co., Singapore,1987.

4. Wylie c. Ray and Barett Louis, C., Advanced Engineering Mathematics, Sixth Edition,Mcgraw-Hill, Inc., Newyork, 1995.


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EE295 ELECTRICAL MACHINES 3 0 0 3

1. POLYPHASE CIRCUITS 6

Three phase circuits with Balanced and Unbalanced Loads - Power measurement in 3 Phase

circuit- Two watt meter method.

2. DC MACHINES 9Construction of DC Machines-Theory of operation of DC Generators -Characteristics of DCGenerators. Operating principle of DC motors-Types of DC motors and their Characteristics-

Speed control of DC motors.

3.TRANSFORMERS 9

Principle of operation of Transformers - Types - Equivalent circuit - Voltage regulation Efficiency - Testing - All Day Efficiency - Principle of operation of Three phase transformers -

Transformer connections

4. INDUCTION MACHINES 12

Construction of single Phase motors - Types of single Phase motors - Double revolving fieldtheory - Starting methods - Capacitor start Capacitor run motors - Shaded pole-Repulsion type -

Universal motors. Principle of operation of 3 phase induction motors - Construction Types -Equivalent circuit - Starting and Speed control.

5. SYNCHRONOUS MACHINES 9

Principle of alternator - Construction details - Types - Equation of Induced EMF- Voltage

regulation. Methods of starting of synchronous motors-Torque equation - V curves -

synchronous condensers.

L=45

TEXTBOOK:

1. I.J. Nagarath and Kothari. D.P. Electric Machines Tata McGraw Hill, 1997.

2. Hughes Electrical Technologies, John Hiley and Keith Brown Publishers, 2003

REFERENCE:1. Bhattacharya S.K, Electrical Machines Tata McGraw Hill, 2000.2. Cotton H,Electrical Technology, 7th Edition, CBS Publishers, 2000.3. Del Toro V,Electrical Engineering Fundamentals, Prentice Hall of India , New Delhi

2000.


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EC271 ELECTROMAGNETIC FIELDS AND WAVES 3 0 0 3

1. STATIC ELECTRIC FIELD 9

Introduction to co-ordinate systems , Gradient , Divergence , Curl , Divergence theorem, Stokes

theorem , Coulombs law , Electric field intensity , Principle of superposition , Electric scalar

potential , Electric flux density. Gausss law and its application, Introduction to field

computation methods.

2. STATIC MAGNETIC FIELD 9

Magnetic field of a current carrying element ,Amperes law , The Biot Savart law , Magneticflux Density and Field intensity , Gauss law for magnetic fields , Torque on a loop , Magnetic

moment ,Magneto motive force , Permeability , Vector potential , Field computation.

3. FIELDS IN DIELECTRIC AND MAGNETIC MATERIALS 9

Permittivity, Polarization, Boundary relation, Capacitance, Dielectric strength ,Energy and

Energy density, Poisson and Laplace equation and their application. Inductance, Energy in an

Inductor and Energy density, Boundary relation, Hysterisis, Reluctance and Permeance.

4.TIME VARYING ELECTRIC AND MAGNETIC FIELDS 9

Faradays law , Transformer and Mutual induction ,Maxwells equation , Self and Mutualinductance ,Displacement current , Amperes law and its inconsistency for time varying fields ,

Boundary relation , Poynting vector , Comparison of field and circuit theory .

5. PLANE EM WAVES IN ISOTROPIC MEDIA 9

Wave equation from Maxwells Equation, Uniform plane waves in perfect dielectric andconductors, Polarization, Reflection and Refraction of plane waves at different boundaries,

Surface impedance.

L=45

TEXT BOOK:

1. Hayt, W.H, Engineering Electromagnetics McGraw Hill, 19952. David .K.Cheng Field and wave electromagnetics , 2nd edition, Pearson, 2004.

REFERENCE:

1. Edward C.Jordon and Keith G.Balmain, Electromagnetic Waves and Radiating systems,Prentice Hall of India, 2nd Edition, 2004.

2. Kraus, Fleisch, Electromagnetics with Applications, McGraw-Hill, 1999.

3. Guru & hiziroglu,- Electromagnetic Field Theory Fundamentals`` Brooks/ColeThomson learning.

4. David . J . Griffiths, Introduction to Electrodynamics``Third Edition , Pearson, 2003.


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EC272 ELECTRONIC CIRCUITS I 3 1 0 4

1. AMPLIFIERS BJT & FET 9

Small signal equivalent circuits of Amplifiers Small signal Analysis CMOS Inverters DC

Analysis of CMOS Inverters Voltage transfer curve Noise margin Cascode Darlington

Bootstrap -- Differential Amplifiers -- Improvement of CMRR

2. MOSFET & CMOS CIRCUITS 9

MOSFET as an amplifier Small signal model analysis Biasing in integrated circuits MOS

amplifiers Current steering circuit using MOSFET Single stage IC MOS amplifiers CMOScommon source amplifier Common drain follower configuration using CMOS Design of

NMOS inverter using resistive load - load live Noise margin analysis

3. HIGH FREQUENCY ANALYSIS OF BJT AND FET 9

Frequency response of BJT and FET High frequency equivalent circuit short circuit current

gain cut off frequency unity gain and bandwidth Miller effect Limitations of high

frequency CE/CC amplifiers.

4. LARGE SIGNAL AMPLIFIERS 9

Power BJT & MOSFET Heat sinks Analysis of Class A,B, AB,C, D,S Class AB withdarlington .O/P stage Characteristics of Power MOSFET Temperature effects Comparisons

with BJT power amplifiers Class AB O/P stage utilizing MOSFET.

5. POWER SUPPLIES 9HWR & FWR Performance measures -- Analysis of different filters C,L,L-C, -- SMPS Design of SMPS Linear voltage regulators AC/DC power control using SCR.

L:45+T:15=60

TEXT BOOK:

1. Adel .S. Sedra, Kenneth C. Smith, Micro Electronic circuits, 4th Edition,Oxford UniversityPress, 1998.

2. Richard .C. Jaeger.Travis, N.Blalock, Micro Electronic Circuit Design 2nd Edition, Tata

McGraw Hill, 2003.

REFERENCE:

1 Denal .A. Neamen, Electronic Circuit Analysis and Design 2nd edition,Tata McGraw

Hill, 2002.

2. Millman .J. and Halkias C.C, Integrated Electronics McGraw Hill, 2001.3. Millman.J and Grabel,A., Michrodectromics, McGraw Hill, 1995.

4. D.Sehilling and C.Belove, Electronic Circuits 3rd

edition, McGraw Hill, 1989.


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EC273 PROGRAMMING AND DATA STRUCTURES 3 0 0 3

1. PROBLEM SOLVING LISTS, STACKS AND QUEUES 9

Problem solving techniques and examples Abstract Data Type (ADT) The List ADT The Stack ADT The

Queue ADT

2. TREES 9

Preliminaries Binary Trees The Search Tree ADT Binary Search Trees AVL Trees Tree Traversals B-

trees

3. HASHING AND PRIORITY QUEUES 9

Hashing General Idea Hash Function Separate Chaining Open Addressing Rehashing Extendible Hashing

- Priority Queues (Heaps) Model Simple implementations Binary Heap Application of Priority Queues

4. SORTING 9

Preliminaries Insertion Sort Shellsort Heapsort Mergesort Quicksort External Sorting

5. GRAPHS 9

Definitions Topological Sort Shortest-Path Algorithms Minimum Spanning Tree Applications of Depth-First

Search

Total: 45

TEXT BOOKS:

1) M. A. Weiss, Data Structures and Algorithm Analysis in C, 2nd ed, Pearson Education Asia, 2002.2) R. G. Dromey, How to Solve it by Computer, Prentice-Hall of India, 2002.

REFERENCES:

1. Brian W. Kernighan and Rob Pike, The Practice of Programming, Pearson Education Asia, 1999.2. Aho, J. E. Hopcroft and J. D. Ullman, Data Structures and Algorithms, Pearson Education Asia, 1983.3. Thomas H. Cormen, Charles E. Leiserson and Ronald L. Rivest, Introduction to Algorithms, 2nd ed.,

Prentice-Hall of India, 2002.

4. Y. Langsam, M. J. Augenstein and A. M. Tenenbaum, Data Structures using C++, Pearson EducationAsia / Prentice-Hall of India, 2004.


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EC274 SIGNALS AND SYSTEMS 3 1 0 4

1. CLASSIFICATION OF SIGNALS AND SYSTEMS 9

Continuous time signals (CT signals)- Discrete time signals (DT signals) Step, Ramp, Pulse,

Impulse, Exponential, classification of CT and DT signals periodic and aperiodic signals,random signals, Energy & Power signals - CT systems and DT systems, Classification of

systems.

2. ANALYSIS OF CONTINUOUS TIME SIGNALS 9

Fourier series analysis- spectrum of Continuous Time (CT) signals- Fourier and Laplace

Transforms in Signal Analysis.

3. LINEAR TIME INVARIANT CONTINUOUS TIME SYSTEMS 9

Differential Equation-Block diagram representation-impulse response, convolution integrals-

Fourier and Laplace transforms in Analysis- State variable equations and matrixrepresentation of systems.

4. ANALYSIS OF DISCRETE TIME SIGNALS 9

DTFT & Properties-Z Transform & properties- Baseband Sampling of CT signals- Aliasing.

5. LINEAR TIME INVARIANT DISCRETE TIME SYSTEMS 9

Difference Equations-Block diagram representation-Impulse response-Convolution sum-Fourier and Z Transform Analysis of Recursive & Non-Recursive systems- State variable

equations and matrix representation of systems.

L:45+T:15=60

TEXTBOOK:

1. Allan V.Oppenheim, S.Wilsky and S.H.Nawab, Signals & Systems, Pearson Education,

2000.2. Simon Haykins and Barry Van Veen, Signals & Systems John Wiley & sons , Inc, 1999

REFERENCE:

1. M.J.Roberts, Signals & Systems, Analysis using Transform methods & MATLAB, Tata

McGraw Hill (India), 2003.

2. Robert A. Gabel and Richard A.Roberts, Signals & Linear Systems, John Wiley, III edition,1987.

3. Douglas K. Linder, Signals & Systems, Mc.Graw Hill International , 1999

4. R.E.Zeimer, W.H. Tranter and R.D. Fannin, Signals & Systems- Continuous and Discrete,

Pearson, 2001.


12/86

EE272 ELECTRICAL MACHINES LAB 0 0 3 2

1) Power Measurements in 3-phase circuits.

2) Swinburne's Test.

3) Speed control of DC motors

4) Load Test on DC shunt generator

5) OCC and Load Test on DC shunt generator

6) OC and SC tests on Transformers.

7) Load Test on Transformer.

8) Regulation of alternator by EMF and MMF methods.

9) Equivalent circuit on 3-phase induction motor.

10)Load Test on 3-phase induction motor.

11)Equivalent circuit of single-phase induction motor.

12)Study of DC motor starters.

13)Study of AC motor starters.


13/86

EC275 ELECTRONIC DEVICES AND CIRCUITS LAB 0 0 3 2

1. CE Transistor Characteristics

2. UJT Characteristics

3. FET Characteristics

4. SCR Characteristics

5. Power Supplies

6. Frequency Response of CE, CB, and CC Amplifiers

7. Source Follower with gate resistance, Bootstrapped.

8. Class A and Class B power amplifiers.

9. Differential Amplifiers, CMRR measurements.

10.Examples using PSpice


14/86

EC276 PROGRAMMING AND DATA STRUCTURES LAB 0 0 3 2

1. Array implementation of List Abstract Data Type (ADT)2. Linked list implementation of List ADT3. Cursor implementation of List ADT

4. Stack ADT - Array and linked list implementations

The next two exercises are to be done by implementing the following source files

(a) Program source files for Stack Application 1

(b) Array implementation of Stack ADT

(c) Linked list implementation of Stack ADT

(d) Program source files for Stack Application 2

An appropriate header file for the Stack ADT should be #included in (a) and (d)

5. Implement any Stack Application using array implementation of Stack ADT (by implementing files (a) and(b) given above) and then using linked list implementation of Stack ADT (by using files (a) and

implementing file (c))

6. Implement another Stack Application using array and linked list implementations of Stack ADT (by

implementing files (d) and using file (b), and then by using files (d) and (c))

7. Queue ADT Array and linked list implementations8. Search Tree ADT - Binary Search Tree9. Hash Table separate chaining10. Implement an interesting application as separate source files and using any of the searchable ADT files

developed earlier. Replace the ADT file alone with other appropriate ADT files. Compare the performance.

11. Heap Sort12. Quick Sort


15/86

MA281 RANDOM PROCESSES 3 1 0 4

1. PROBABILITY AND RANDOM VARIABLES 9

Axioms of propability Conditionsl propability Total Probability

Bayestheorm axiom variables Discrete and Continuous.

2. STANDARD DISTRIBUTIONS 9

Binomial, Poisson, Geometric, Uniform, Normal, Exponential and Gamma distributions-

Expectations-Variance Moments Moment generating function and their properties.

3. TWO DIMENSIONAL RANDOM VARIABLES 9

Joint distributions Marginal and Conditions distributions covariance Correlation andRegression Sums of independent random variables.

4. RANDOM VARIABLES 9

Random Processes Definition Characterization Discrere Parmeter Markov chain Poisson

processes Transition probability matrix Chapman Kolmogorov equations- Limiting

distributions.

5. ANALYSIS AND POROCESSING AND RANDOM PROCESSES. 9

Power spectral densities Auto Correlation functions Cross-correlation function Power

spectral densities Cross- power spectral densities- White noise Response of linear systems torandom inputs.

L:45+T:15= 60

TEXTBOOK:

1. R.E.Walpole, R.H.Myers,S.L Myers and K.Ye,Probability and Statistics for Engineers andScientists,7th edition, Pearson Education,Delhi,2002.

2. Hwei Hsu,Schaums Outlines Probability, random Variables, and Random

Processes,McGrawHill,1997.

REFERENCE:

1. Sheldon Ross,A First Couse in Probability,6th edition, Pearson Education, Delhi,2002.2. Henny Stark and John W.Woods. Probability and Random Processes with applications

to signal processing,3rd edition Pearson Education,Asia,2002.

3. P.Z.Peebles,Jr.Probability,Random Variables and Random signal principles,Tata McGrawHill.4

thEdition,2002.

4. Papoulis,A &UnniKrishnan Pillai,S.,Probability,Random variables and stochastic

Process ,4th Edition ,Tata McGrawHill,2002.


16/86

EC281 DIGITAL ELECTRONICS AND SYSTEM DESIGN 3 1 0 4

1. BASIC CONCEPTS AND BOOLEAN ALGEBRA 9

Number systems - Binary, Octal, Decimal, Hexadecimal, conversion from one to another,

complement arithmatic, Boolean theorems of Boolean algebra, Sum of products and product ofsums, Minterms and Maxterms, Karnaugh map, Tabulation and computer aided minimization

procedures.

2. LOGIC GATES 8

TTL, HTL, NMOS & CMOS logic gates, Circuit diagram and analysis characteristics andspecifications, tri-state gates. Logic Threshold noise margin, fan-in/fan-on.

3. COMBINATIONAL CIRCUITS 10

Problem formulation and design of combinational circuits, Adder / Subtractor, Encoder /

decoder, Priority Encoder, Mux /Demux, Code-converters, Comparators, Implementation of

combinational logic using standard ICs, ROM, EPROM, EEPROM, PAL, PLA, CPLD and their

use in combinational circuit design

4. SEQUENTIAL CIRCUITS 10

Flipflops - SR, JK, T, D, Master/Slave FF, Triggering of FF, Analysis of clocked sequentialcircuits - their design, State minimization, moore/mealy model, state assignment, Circuit

implementation, Registers-Shift registers, Ripple counters, Synchronous counters, Timing signal,

RAM, Memory decoding, Semiconductor memories.

5. FUNDAMENTAL MODE SEQUENTIAL CIRCUITS 8

Stable, Unstable states, Output specifications, Cycles and Races, Race free Assignments,

Hazards, Essential hazards, Pulse mode sequential circuits. Design of Hazard free circuit.

L:45+T:15=60

TEXTBOOK:

1. Morris Mano, " Digital logic and Computer Design ", Prentice-Hall of India, 1998.

REFERENCE:

1. William I. Fletcher, " An Engineering Approach to Digital Design ", Prentice-Hall of India,

1980.2. Floyd T.L., " Digital Fundamentals ", Charles E. Merrill publishing Company, 1982.

3. Tokheim R.L., " Digital Electronics - Principles and Applications ", Tata McGraw Hill, 1999.

4. Jain R.P., " Modern Digital Electronics ", Tata McGraw Hill, 1999.

5. John .M. Yarbrough, Digital Logic Applications & Design, Vikas Publishing House.


17/86

EC282 ELECTRONIC CIRCUITS II 3 1 0 4

1. FEEDBACK AMPLIFIERS AND STABILITY 9

Basic feedback concepts Properties of Negative feedback Four feedback topologies withamplifier circuit. Examples Analysis of series shunt feedback amplifiers stability problem

Frequency compensation.

2. OSCILLATORS 9

Barkhausen criteria for oscillator Analysis of RC oscillators Phase shift Wein bridge

oscillators LC oscillators Colpitt, Hartley, Clapp, Crystal , Ring. Phase noise in oscillators.

3. TUNED AMPLIFIERS 9Basic principles Inductor losses Use of transformers Amplifier with multiple tuned circuits

Cascade Synchronous tuning Stagger tuning Stability of tuned amplifiers usingNeutralization techniques.

4. SIGNAL GENERATOR AND WAVE SHAPING CIRCUITS 9Switching characteristics of transistors Bistable multivibrators Transfer characteristics of

Bistable Application of Bistable Astable multivibrator Square and triangular wave

generation Monostable multivibrator Pulse generation Wave shaping n/w s RC,RL,RL.

5. POWER DEVICES 9

Power transistors- Steady state and switching characteristics power MOSFET. Steady state and

switching characteristics IGBT. A.C Voltage control and phase control rectifiers using thyristorsand TRIAC. DC / DC converters Buck, Boost and Buck Boost.

L:45+T:15= 60

TEXTBOOK:

1. Adel .S. Sedra, Kenneth C. Smith, Micro Electronic circuits, 4th Edition,Oxford UniversityPress, 1998.

REFERENCE:

1. Richard .C. Jaeger.Travis, N.Blalock, Micro Electronic Circuit Design 2nd Edition, Tata

McGraw Hill, 2003.

2 Denal .A. Neamen, Electronic Circuit Analysis and Design 2nd edition,Tata McGraw

Hill, 2002.3. David .A. Bell, Solid state pulse circuits, Prentice Hall of India,1992.

4. Muhammed H.Rashid power electronics Pearson Education / PHI , 2004


18/86

EC283 LINEAR INTEGRATED CIRCUITS 3 0 0 3

1. CIRCUIT CONFIGURATION FOR LINEAR ICS: 9

Current sources, Analysis of difference amplifiers with active loads, supply and temperatureindependent biasing, Band gap references, Monolithic IC operational amplifiers, specifications,

frequency compensation, slew rate and methods of improving slew rate.

2. APPLICATIONS OF OPERATIONAL AMPLIFIERS: 9

Linear and Nonlinear Circuits using operational amplifiers and their analysis, Inverting

and Non inverting Amplifiers, Differentiator, Integrator Voltage to Current converter,Instrumentation amplifier, Sine wave Oscillators, Low pass and band pass filters, comparator,

Multivibrator and Schmitt trigger, Triangle wave generator, Precision rectifier, Log and Antilog

amplifiers, Non-linear function generator.

3. ANALOG MULTIPLIER AND PLL: 9

Analysis of four quadrant and variable Tran conductance multipliers, Voltage controlled

Oscillator, Closed loop analysis of PLL, AM, PM and FSK modulators and demodulators.Frequency synthesizers, Compander ICs

4. ANALOG TO DIGITAL AND DIGITAL TO ANALOG CONVERTORS 9

Analog switches, High speed sample and hold circuits and sample and hold IC's, Types of D/Aconverter Current driven DAC, Switches for DAC, A/D converter, Flash, Single slope, Dual

slope, Successive approximation, DM and ADM, Voltage to Time and Voltage to frequency

converters.

5. SPECIAL FUNCTION ICS 9

Timers, Voltage regulators - linear and switched mode types, Switched capacitor filter,

Frequency to Voltage converters, Tuned amplifiers, Power amplifiers and Isolation Amplifiers,Video amplifiers, Fiber optics ICs and Opto couplers, Sources for Noises, Op Amp noiseanalysis and Low noise OP-Amps

L = 45

TEXTBOOK:

1. Sergio Franco, " Design with operational amplifiers and analog integrated circuits ",McGrawHill, 1997.

REFERENCE:1. Gray and Meyer, " Analysis and Design of Analog Integrated Circuits ", Wiley International,

1995.

2. Michael Jacob J., " Applications and Design with Analog Integrated Circuits ", Prentice Hall ofInida, 1996.

3. Ramakant A. Gayakwad, " OP - AMP and Linear IC's ", Prentice Hall, 1994.

4. Botkar K.R., " Integrated Circuits ", Khanna Publishers, 1996.

5. Taub and Schilling, " Digital Integrated Electronics ", McGraw Hill, 1977.6. Caughlier and Driscoll, " Operational amplifiers and Linear Integrated circuits ", Prentice Hall,

1989.

7. Millman J. and Halkias C.C., " Integrated Electronics ", McGraw Hill, 2001.


19/86

EC284 TRANSIMISION LINES & WAVE GUIDES 3 0 0 3

1. TRANSMISSION LINE THEORY & PARAMETERS 8

Introduction to different types of transmission lines , Transmission line Equation Solution

Infinite line concept - Distortion less line loading input impedance ,Losses in Transmission lines Reflection loss, Insertion loss, return loss, Transmission line

parameters at radio frequencies.

2. IMPEDENCE MATCHING AND TRANSFORMATION 9

Reflection Phenomena Standing waves /8, /4 & /2 lines /4 Impedance transformers ,

Stub Matching Single and Double Stub Smith Chart and Applications.

3. NETWORKCOMPONENTS 9

Filter fundamentals, Constant K LPF and HPF Filter design, Fundamentals of Attenuators and

Equalizers Lattice type , Concept of inverse networks Transients in transmission lines.

4. RECTANGULAR WAVE GUIDES 10

Waves between Parallel Planes characteristic of TE , TM and TEM waves , Velocities of

propagation ,Solution of wave Equation in Rectangular guides ,TE and TM modes , DominantMode,Attenuation,Mode Excitation,Rectangular cavity resonator and Q for dominant mode,

Problems .

5. CYLINDRICAL WAVE GUIDES 9

Solution of wave equation in circular guides, TE and TM wave in circular guides, Wave

impedance, attenuation, mode excitation, formation of cylindrical cavity, Application ,Problems.

TEXTBOOK:

1 David .K.Cheng Field and wave electromagnetics `` , Addison Wesley , New Delhi , 19992 John D Ryder Networks lines and fields`` Printice Hall of India, 2000

REFERENCE:

1. Guru & Hiziroglu,Electromagnetic Field Theory Fundamentals`` Brooks/Cole Thomson

learning, 2000

2. Annapurna Das Sisir K Das ,Microwave Engineering`` Tata McGraw Hill, 2004.

3. S.Baskaran & S.Mary Joans, Transmission Lines and Networks, Scitech Publications (India)Pvt.Ltd., 2003.

4. W.L.Everitt & G.Anner, Communication Systems, Mc Graw Hill, 1956

5. James L.Potter & Sylan J.Fich, Theory of Networks and lines, Prentice Hall of Indoa, 1965


20/86

EC285 CONTROL SYSTEMS 3 1 0 4

1. CONTROL SYSTEM MODELING 9

Basic Elements of Control System Open loop and Closed loop systems - Differential equation -

Transfer function, Modeling of Electric systems, Translational and rotational mechanical systems- Block diagram reduction Techniques - Signal flow graph

2. TIME RESPONSE ANALYSIS 9

Time response analysis - First Order Systems - Impulse and Step Response analysis of second

order systems - Steady state errors P, PI, PD and PID Compensation

3. FREQUENCY RESPONSE ANALYSIS 9

- Frequency Response - Bode Plot, Polar Plot, Nyquist Plot - Frequency Domain specifications

from the plots - Constant M and N Circles - Nichols Chart - Use of Nichols Chart in Control

System Analysis. Series, Parallel, series-parallel Compensators - Lead, Lag, and Lead LagCompensators.

4. STABILITY ANALYSIS 9

Stability, Routh-Hurwitz Criterion, Root Locus Technique, Construction of Root Locus,

Stability, Dominant Poles, Application of Root Locus Diagram - Nyquist Stability Criterion -

Relative Stability

5. STATE VARIABLE ANALYSIS 9State space representation of Continuous Time systems State equations Transfer functionfrom State Variable Representation Solutions of the state equations - Concepts of

Controllability and Observability State space representation for Discrete time systems.

Sampled Data control systems Sampling Theorem Sampler & Hold Open loop & Closed

loop sampled data systems.

L:45+T:15=60

TEXTBOOK:

1. I.J.Nagrath and M.Gopal, Control System Engineering, Wiley Eastern, 1992.

REFERENCE:

1. M.Gopal, Control System Analysis and Design, Tata McGraw Hill, 2003

2. Benjamin.C.Kuo, Automatic control system, Prentice Hall of India, 1995.

3. Richord C.Dorf, Robert H.Bishop,Modern Control Systems Addison-Wesley 1999.

4. John J.Diazo & Constantine H.HoupisLinear control system analysis and designTata McGrow-Hill, Inc., 1995.

5. Shaums Outline Series,Feedback and Control Systems Tata McGraw-Hill, 1986.


21/86

EC286 ANALOG CIRCUITS LAB 0 0 3 2

1. Design and frequency response of Feedback Amplifier.

2. Design and frequency response of Tuned Amplifier.

3. Design of RC Oscillators

4. Design of LC Oscillators

5. Design of Monostable Multivibrator

6. Design of generation of voltage sweep generator.

7. RC wave shaping circuits

8. Frequency response of cascade amplifier.

9. Design and frequency response of Active Filter.


22/86

EC287 DIGITAL SYSTEM LAB 0 0 3 2

1. Electrical I/O Characteristics of TTL, CMOS gates (Incl, Logic levels, thresholds and

noise margins, drive levels).

2. Set up time, hold time, propagation delay, glitch, clock skew measurements.

3. Electrical failure characteristics of logic gates and flip flops (ground noise, power

supply noise, o/p short circuit etc.)

4. A multidigit counter using Sequential logic

5. Parallel to Serial/Serial to Parallel Converter

6. Pseudo Random Generator using Sequential Logic

7. SRAM, Flash memory characteristics

8. Design of RS, JK/T, D flip flop using gates

9. A/D D/A converter

10. 7 Segment, mux/demux encoder decoder, Schmittrigger

11. Simple VHDL Programming


23/86

GE381 Professional Ethics in Engineering 3 0 0 3

1. Engineering Ethics 9

Senses of Engineering Ethics Variety of moral issues Types of inquiry Moral dilemmas

Moral Autonomy Kohlbergs theory Gilligans theory Consensus and Controversy

Professions and Professionalism Professional Ideals and Virtues Theories about right action Self-interest Customs and Religion Uses of Ethical Theories

2. Engineering as Social Experimentation 9

Engineering as Experimentation Engineers as responsible Experimenters Codes of Ethics A

Balanced Outlook on Law The Challenger Case Study

3. Engineers Responsibility for Safety 9

Safety and Risk Assessment of Safety and Risk Risk Benefit Analysis Reducing Risk TheThree Mile Island and Chernobyl Case Studies

4. Responsibilities and Rights 9

Collegiality and Loyalty Respect for Authority Collective Bargaining Confidentiality

Conflicts of Interest Occupational Crime Professional Rights Employee Rights Intellectual Property Rights (IPR) - Discrimination

5. Global Issues 9

Multinational Corporations Environmental Ethics Computer Ethics Weapons Development

Engineers as Managers Consulting Engineers Engineers as Expert Witnesses and Advisors

Moral Leadership Sample Code of Conduct45

Text Book :

Mike Martin and Roland Schinzinger, Ethics in Engineering, McGraw Hill, New York 1996.

References :

1. Charles D Fleddermann, Engineering Ethics, Prentice Hall, New Mexico, 1999.

2. Laura Schlesinger, "How Could You Do That: The Abdication of Character, Courage,and Conscience", Harper Collins, New York, 1996.

3. Stephen Carter, "Integrity", Basic Books, New York, 1996.4. Tom Rusk, "The Power of Ethical Persuasion: From Conflict to Partnership at Work and

in Private Life", Viking, New York, 1993


24/86

EC371 COMMUNICATION THEORY AND SYSTEMS 3 1 0 4

1. AMPLITUDE MODULATION 9

Generation and detection of AM wave-spectra- DSBSC, Hilbert Transform, Pre-envelope &complex envelope, SSB and VSB signals-comparison-FDM principles- Superheterodyne

Receiver.

2. ANGLE MODULATION 9

Phase and frequency modulation - Narrow Band and Wide band FM Spectrum- FM modulation

and demodulation - PLL as FM Demodulator - Transmission bandwidth.

3. PERFORMANCE OF AM & FM 9

Review of Random process Noise- White & Narrow Band Noise - Noise figure-Noise

temperature and equivalent noise bandwidth - Noise performance of AM & FM-FM thresholdeffect Pre-emphasis & De-emphasis in FM.

4. SAMPLING & QUANTIZATION 9

Review of lowpass sampling- Band pass & Quadrature Sampling Quantization Uniform &

non-uniform quantization quantization noise Logarithmic companding of speech signal-

Vector Quantization Analog Pulse modulation.

5. SOURCE CODING TECHNIQUES 9

PCM-Time Multiplexing - Prediction filtering and DPCM - Delta Modulation - ADPCM &ADM principles- LPC & Subband coding of speech signal Transform coding.

L:45+T:15=60

TEXTBOOK:

1. Lathi,B.P., Modern Digital and Analog Communication Systems, Oxford University Press,1998.

2. Carlson, A.B., Communication System, McGrawHill International edition, New York,

1986.3. Haykin, S., Communication Systems, John Wiley, 2001.

REFERENCE:

1.Couch,L., Modern communication system, Pearson, 2001.2.Sklar, B., Digital communiction Fundamentals and Applications, Pearson, 2001.

3.Rao,K.R., & Hwang,J.J., Techniques & Standards For Image & Video Coding, Prentice

Hall, 19964.Jayant,N.S., and Noll,P., Digital Coding of Waveforms: Principles and Applications to

Speech and Video, Prentice Hall, 1984.


25/86

EC372 MICROPROCESSOR AND ITS APPLICATION 3 0 0 3

1. INTRODUCTION TO 8 / 16 BIT MICROPROCESSOR 98085 Architecture, Memory and I/O interfacing. Instruction set, Addressing Modes, interrupts,

Timing diagram. 8086 Architecture, Instruction set, Addressing modes.

2. PROGRAMMING AND APPLICATIONS OF 8086 PROCESSORS 98086 Minimum and Maximum mode configurations, Assembly language Programming

Interrupts. Memory and I/O interfacing. Interrupts. Introduction to 80186.

3. MICROCONTROLLER 9Intel 8031/8051 Architecture, Special Function Registers (SFR), I/O pins, ports and circuits,

Instruction set, Addressing Modes, Assembly Language Programming, Timer and CounterProgramming, Serial Communication, Connection to RS 232, Interrupts Programming, External

Memory interfacing, Introduction to 16 bit Microcontroller

4. PERIPHERALS AND INTERFACING 9Serial and parallel I/O (8251 and 8255), Programmable DMA Controller (8257), Programmable

interrupt controller (8259), keyboard display controller (8279), ADC/DAC interfacing. Inter

integrated circuits interfacing (I2C standard).

5. MICROPROCESSOR BASED SYSTEMS DESIGN, DIGITAL INTERFACING: 9

Interfacing to alpha numeric displays, interfacing to liquid crystal display (LCD 16 x 2 line),high power Devices and Optical motor shaft encoders, stepper motor interfacing, Analog

interfacing and industrial control, microcomputer based smart scale, industrial process controlsystem.

L = 45

TEXTBOOK:

1. Ramesh S. Gaonkar, Microprocessor Architecture Programming and Applications with

8085. Fourth edition, Penram International Publishing 2000.2. Muhammad Ali Mazidi, Janice Gillispie Mazidi, The 8051 Microcontroller, and

Embedded Systems, Prentice Hall 2000.

3. Douglas V.Hall, Microprocessor and Interfacing, Programming and Hardware. TataMcGraw Hill, Second Edition. 1999.

REFERENCE:

1. Kenneth J.Ayala., The 8051 Microcontroller Architecture Programming andApplications, Penram International Publishing (India). 1996.

2. Kenneth J.Ayala The 8086 Microprocessor, Programming and Interfacing the PC,Penram International Publishing. 1995.

3. Barry.B.Brey. The Intel Microprocessor 8086/8088. 80186, 80286, 80386 and 80486

Architecture Programming and Interfacing, Prentice Hall of India Pvt.Ltd.1995.

4. Ray A.K.Bhurchandi.K.M, Advanced Microprocessor and Peripherals, Tata McGraw-Hill, 2002.


26/86

EC373 DIGITAL SIGNAL PROCESSING 3 1 0 4

1.DISCRETE TIME SIGNALS AND SYSTEMS 9

Review of discrete-time signals & systems-Overlap-add & overlap-save methods, DFT

and its properties, FFT algorithms & its application to convolution.

2. DESIGN OF INFINITE IMPULSE RESPONSE FILTERS 9

Calculation of IIR coefficients using pole-zero placement method, Analog filters Butter

worth & Chebyshev Type I. Analog Transformation of prototype LPF to BPF /BSF/ HPF.

Transformation of analog filters into equivalent digital filters using Impulse invariantmethod and Bilinear Z transform method- Realization structures for IIR filters direct,

cascade, parallel & Lattice forms.

3.DESIGN OF FINITE IMPULSE RESPONSE FILTERS 9

Linear phase response of FIR-FIR design using window method-Frequency sampling

method-Design of Optimal Linear Phase FIR filters-Realization structures for FIR filters

Transversal and Linear phase lattice structures- Comparison of FIR & IIR.

4.QUANTIZATION EFFECTS AND DSP ARCHITECTURE 9

Representation of numbers-ADC Quantization noise-Coefficient Quantization error-Product Quantization error-truncation & rounding off-Limit cycle due to product round-

off error-Round- off noise power-limit cycle oscillation due to overflow in digital filters-

Principle of scaling-Introduction to general and special purpose hardware for DSP Harvard architecture-Pipelining-Special instruction-Replication.

5.MULTIRATE SIGNAL PROCESSING 9

Introduction to Multirate signal processing-Decimation-Interpolation-Polyphase

Decomposition of FIR filter-Multistage implementation of sampling rate conversion-Applications of Multirate signal processing.

L:45+T:15=60

TEXTBOOK:

1. A.V.Oppenheim, R.W. Schafer and J.R. Buck, Discrete-Time Signal Processing, 8 th Indian

Reprint, Pearson, 2004.

2. S.K. Mitra, Digital Signal Processing, A Computer Based approach, Tata McGraw-Hill, 1998.3. P.P.Vaidyanathan, Multirate Systems & Filter Banks, Prentice Hall, Englewood cliffs, NJ,

1993.

REFERENCE:

1. J.G.Proakis and D.G.Manolakis, Digital Signal Processing, Algorithms and Applications,

Pearson, 2003.2. I.C.Ifeachor and B.W. Jervis, Digital Signal Processing- A practical approach, Pearson, 2002.

3. D.J. De Fatta, J.G.Lucas and W.S. Hodgkiss, Digital Signal Processing- A system Design

Approach, John Wiley & sons, Singapore, 1988.


27/86

EC374 COMPUTER ARCHITECTURE AND ORGANIZATION 3 0 0 3

1. INTRODUCTION 9

Computing and Computers, evolution of computers, VLSI era, system design- register level,

processor level, CPU organization, Data representation, fixed point numbers, floating pointnumbers, instruction formats, instruction types. Addressing modes.

2. CONTROL DESIGN 9Hardwired Control, micro programmed control, Multiplier control unit, CPU control unit,

Pipeline control, instruction pipelines, pipeline performance, super scaling processing, Nano

programming.

3. DATA PATH DESIGN 9Fixed point arithmetic, addition, subtraction, multiplication and division, combinational andsequential ALUs, carry look ahead adder, Robertson algorithm, booths algorithm, non-restoring

division algorithm, floating point arithmetic, coprocessor, pipeline processing, pipeline design,

modified booths algorithm

4. MEMORY ORGANIZATION 9

Random access memories, serial access memories, RAM interfaces, magnetic surface recording,

optical memories, multilevel memories, Cache & virtual memory, memory allocation,Associative memory.

5. SYSTEM ORGANIZATION 9Communication methods, buses, bus control, bus interfacing, bus arbitration, IO and system

control, IO interface circuits, Handshaking, DMA and interrupts, vectored interrupts, PCI

interrupts, pipeline interrupts, IOP organization, operation systems, multiprocessors, faulttolerance, RISC and CISC processors, Superscalar and vector processor.

L:45+T:15=60

TEXTBOOK:

1. John P.Hayes, Computer architecture and organisation, Tata McGraw-Hill, Third

edition, 1998.

2. Morris Mano, Computer System Architecture, Prentice-Hall of India, 2000.

REFERENCE:

1. V.Carl Hamacher, Zvonko G. Varanesic and Safat G. Zaky, Computer Organisation IVedition, McGraw-Hill Inc, 1996.

2. G.Kane & J.Heinrich, MIPS RISC Architecture , Englewood cliffs, New Jersey,

Prentice Hall, 1992.


28/86

EC375 MEASUREMENTS AND INSTRUMENTATION 3 0 0 3

1. SCIENCE OF MEASUREMENT 6

Measurement system - Instrumentation - characteristics of measurement systems- Static &Dynamic - Errors in measurements - Calibration and Standard

2.TRANSDUCERS 12

Classification and characteristics of Transducers- Variable Resistive - Strain Gauges, RTD,Thermistors - Variable Inductive LVDT, RVDT, EI pickup - Variable capacitive transducers

Capacitor Microphone. Piezoelectric transducers - Thermocouples IC sensors Fibre optic

transducers intrinsic, extrinsic types - force , temperature ,pressure Smart/IntelligentTransducers

3. DIGITAL INSTRUMENTS & SIGNAL ANALYZERS 12

Digital voltmeters Multimeters - Automation in Voltmeter - Accuracy of DVM - Guarding

Techniques - Frequency counter, Wave analyzers - Spectrum analyzers - Logic analyzer -

Distortion Analyses.

4. DATA ACQUISTION SYSTEMS 6

Introduction to Digital and analog Data Acquisition system- Data Loggers - Introduction to IEEE

488 / GPIB buses

5. DATA DISPLAY AND RECORDING SYSTEM 9

Dual trace CRO - Digital storage and Analog storage Oscilloscope - Analog & Digital Recordersand Printers - Virtual Instrumentation - Historical perspective Advantages - Block diagram and

architecture of a VI VI applications in various fields.

L=45

TEXTBOOK:1. Deobelin, Measurements Systems and Instrumentation , McGraw Hill, 2003.

REFERENCE:

1.Cooper, Electronic Instrumentation and Measurement Techniques, Prentice hall of

India, 2000.

2.David A. Bell, Electronic Instrumentation & Measurements, Prentice hall of India,2003.

3. Bouwens A.J.., Digital Instrumentation , McGraw Hill, 1986.

4. Oliver and Cage, Electronic Measurements and Instrumentation, McGraw Hill

5. Gary Johnson, Labview Graphical Programming, New York, 1997


29/86

EC376 MICROPROCESSOR AND CONTROL SYSTEM LAB 0 0 3 2

1. Programming 8086.

2. Programming Micro Controller.

3. PC Based Control Systems.

4. Stepper Motor Control.

5. PC Interfacing.

6. LVDT Position Control.

7. AC and DC Motor speed motor control.


30/86

EC377 DIGITAL SIGNAL PROCESSING LAB 0 0 3 2

MATLAB / Equivalent Software Package(30% of the course)

1. Generation of sequences (functional & random), correlation and convolution2. Spectrum Analysis using FFT3. Filter Design & Analysis4. Filter Implementation in time-domain & frequency domain5. Study of Quantization errors in DSP algorithms6. Multirate Filters7. Adaptive filter

DSP Processor Implementation (70% of the course)

1. Waveform Generation2. FIR Implementation3. IIR Implementation4. FFT5. Finite word Length effect6. Multirate filters


31/86

EC378 ELECTRONIC SYSTEM DESIGN LAB 0 0 3 2

1. Design of switched mode power supply

2. Design of AC/DC voltage regulator using SCR

3. Design of FM transceiver4. Design of wireless data modem

5. Design of Audio power amplifier with speaker AGC load with AGC circuit.

6. Design of VCO

7. Design of voltage to frequency converter

8. Delta modulator and demodulator

9. 3.5 Digital Voltmeter

10. Design of PRBS generator clocked by CMOS crystal oscillator

11. Numerical controlled oscillator using VHDL.

12. Huffman encoder and decoder using VHDL.


32/86

EC381 DIGITAL SWITCHING & TRANSMISSION 3 0 0 3

1.INTRODUCTION 5

Overview of existing Voice, Data and Multimedia Networks and Services; Review of BasicCommunication principles; Synchronous and Asynchronous transmission.

2.TRUNK TRANSMISSION 10

Line Codes; Multiplexing & Framing- types and standards; Trunk signaling; OpticalTransmission-line codes and Muxing: SONET/SDH; ATM; Microwave and Satellite Systems.

3.LOCAL LOOP TRANSMISSION 12The Analog Local Loop; ISDN local loop; DSL and ADSL; Wireless Local Loop; Fiber in the

loop; Mobile and Satellite Phone local loop.

4.SWITCHING 10

Evolution; Space switching, Time switching and Combination Switching; Blocking and Delay

characteristics; Message ,Packet and ATM switching; Numbering and Billing.

5. TELETRAFFIC ENGINEERING 8

Telecom Network Modeling; Arrival Process; Network Blocking performance; Delay Networks-

-Queing system analysis and delay performance.

L = 45

TEXTBOOK:

1. J. Bellamy, Digital Telephony, John Wiley, 2003, 3rd Edition.2. T. Viswanathan, Telecommunication Switching Systems, Prentice-Hall, 1992

REFERENCE:

1. R.A.Thomson, Telephone switching Systems, Artech House Publishers, 2000.

2. W. Stalling, Data and Computer Communications, Prentice Hall, 1993.3. T.N.Saadawi, M.H.Ammar, A.E.Hakeem, Fundamentals of Telecommunication

Networks, Wiley Interscience, 1994.

4. W.D. Reeve, Subscriber Lop Signalling and Transmission Hand book,IEEEPress(Telecomm Handbook Series), 1995.


33/86

EC382 DIGITAL COMMUNICATION 3 0 0 3

1.BASEBAND SIGNALLING 10

Baseband data formats & their properties Matched filter ISI Nyquists criterion for

distortionless transmission- Correlative codingM-ary schemesEye pattern-Equalization

Adaptive Equalization Bit Synchronization.

2.BANDPASS SIGNALLING 10

Geometric Representation of signals Generation, detection, PSD & BER of Coherent BPSK,

BFSK & QPSK - Principles of CPFSK (MSK & GMSK) & QAM - Carrier Synchronization -Structure of Non-Coherent Receivers Principle of DPSK.

3.INFORMATION THEORY 8

Entropy - Discrete memoryless channels - Mutual information - Channel capacity - Channel

transition matrices - Channel capacity of continuous channels - Hartley - Shannon law- Source

coding theorem - Huffman & Shannon - Fano codes.

4. ERROR CONTROL CODING 11

Channel coding theorem Linear Block codes - Hamming Codes - Cyclic codes Convolutional

codes Vitterbi Decoder -Trellis Coded Modulation.

6

5.SPREAD SPECTRUM TECHNIQUES

Spread spectrum Codes PN sequence - Auto correlation and Cross correlation properties m-

sequences - Direct sequence Spread spectrum- Code synchronization -Processing Gain-Jamming Resistance CDMA -Frequency Hop spread spectrum.

L =45

TEXTBOOK:

1. Haykin, S., Communication Systems, 4th Edition, John Wiley, 2001.

REFERENCE:

1. Couch.L., Modern communication system, Pearson, 2001.

2. Lathi,B.P., Modern Digital and Analog Communication Systems, Oxford University

Press, 1998.

3. Sklar, B., Digital communiction Fundamentals and Applications, Pearson, 20014. Ziemer, R.E., & Peterson, R.L., Introduction to Digital Communication, Prentice Hall,

Inc. NJ, 2001.

5. S. Lin and D. J. Costello, Jr., Error Control Coding: Fundamentals and Applications,Prentice Hall: Englewood Cliffs, NJ, 1983

6. Proakis, J.G., Digital Communication , McGraw Hill ,2000.


34/86

EC383 COMPUTER NETWORKS 3 0 0 3

1. NETWORK FUNDAMENTALS 10

Introduction to networks, definition of layers, services, interfaces and protocols. Communicationthemes switching techniques, OSI reference model layers and duties, TCP/IP reference

model layers and duties, layers and sub-layers, ATM reference model-layers and duties,

comparison of models.

2. DATA LINK LAYER PROTOCOLS 10

Physical layer general description, characteristics, signaling limits, media types and

comparison, topologies, examples of physical layer (RS232-C, ISDN, ATM, Wireless, SONET)Data link layer, MAC Layer sliding window protocols, ALOHA protocols, LAN protocols and

standards ETHERNET 802.3, TOKEN BUS TOKEN RING

3. NETWORK INTERCONNECTION 5

Internetworking Interconnection issues, bridges Transparent & source routing bridges,

Routers Flow and congestion control algorithms, gateways.

4. MESSAGE ROUTING TECHNOLOGIES 10

Circuit switching, packet switching, Network layer protocols, internet protocol, 1PV4, 1PV6

ARP, RARP, ICMP, VPN

5. END-TO-END PROTOCOLS 10

UDP, TCP, SNMP, DNS, TELNET, FTP, NFS, RPC, HTTP, WWW, Networking Security.

Total = 45

TEXTBOOK:

1. Stallings, W., Data and Computer communications IV edition, Prentice Hall of India,

1996.

REFERENCE:

1. Forouzan.B., Introduction to Data Communication & Networking, McGraw Hill,1998.

2. Keshav.S., An Engineering approach to Computer Networking, Addision-Wesley,1999.

3. Tanenbaum, A.S., Computer Networks, Prentice Hall of India, III edition, 1996.4. Kelser, Local area Network, Tata McGraw Hill, 1997.5. Stevens, R.W., TCP/IP Illustrated Volume I The protocols Addison-Wesley 1999

6. Comer, D.E., Internetworking with TCP/IP Volume I, Hall of India, 1999.7. Book on Queueing Theory Mischa Schawartz


35/86

EC384 MEDICAL ELECTRONICS 3 0 0 3

1. ELECTRO-PHYSIOLOGY AND BIOPOTENTIAL RECORDING 9

The origin of Biopotentials; biopotential electrodes; biological amplifiers; ECG, EEG, EMG,PCG, EOG lead systems and recording methods, typical waveforms and signal characteristics.

2. BIO-CHEMICAL AND NON ELECTRICAL PARAMETER MEASUREMENTS 9

pH, pO2, pCO2, pHCO3, Electrophoresis, colorimeter, photometer, Auto analyzer, Blood flowmeter, cardiac output, respiratory measurement, Blood pressure, temperature, pulse, Blood cell

counters, differential count.

3. ASSIST DEVICES 9

Cardiac pacemakers, DC Debrillators, Dialyser, Heart-Lung machine, Hearing aids.

4. PHYSICAL MEDICINE AND BIO-TELEMETRY 9

Diathermies Short-wave, ultrasonic and microwave type and their applications, medical

stimulator, Telemetry principles, frequency selection, Bio-telemetry, radio-pill and tele-

stimulation, electrical safety.

5. RECENT TRENDS IN MEDICAL INSTRUMENTATION 9

Thermograph, endoscopy unit, Laser in medicine, Surgical diathermy, cryogenic application,introduction to telemedicine.

L = 45

TEXTBOOK:

1. John G.Webster, Medical Instrumentation Application and Design, John Wiley andSons, (Asia) Pvt.Ltd., 1999.

2. Lesile Cromwell, Biomedical instrumentation and measurement, Prentice Hall of India,

New Delhi, 1997.

REFERENCE:

1. Khandpur, R.S. Handbook of Biomedical Instrumentation, Tata McGraw-Hill, NewDelhi, Second edition, 2003.

2. Joseph.J, Carr and John M.Brown, Introduction to Biomedical equipment technology,Pearson Education Inc.2001.


36/86

EC385 RF AND MICROWAVE ENGINEERING 3 0 0 3

1. RF AND MW TRANSMISSION LINES AND CIRCUIT THEORY 8

Characteristics of coaxial, strip and microstrip lines; Lumped elements R,L,C, high frequency

equivalent and simulation; S-matrix formulation of multiport network properties of S-matrix;

RF/MW applications Radar, Communication, Domestic/Industrial and Medical Numerical

examples.

2. PASSIVE DEVICES AND CIRCUITS 10

Open, short and matched terminations; coupling probes and loops; power divider; directionalcoupler; attenuators; phase shifter; circulator; isolator; Impedance matching Turning screw,

stub and quarter-wave transformers, Filter - Theory and design

3. SOLID STATE DEVICES & CIRCUITS 10

Crystal diodes and Schottkey diode detector and mixers; PIN diode switch, phase shifter and

attenuators; Gunn diode oscillator; IMPATT diode oscillator and amplifier; varactor diode and

parametric amplification; Transistors amplifier and oscillator - Theory and design.

4.VACUUM TUBES & CIRCUITS 8

RF effects in Tubes, Two cavity klystron amplifier; Reflex klystron oscillator; TWT amplifier;Magnetron oscillator Theory and applications.

5. MEASUREMENTS 9

Measuring Instruments VSWR meter, Power meter, Spectrum Analyser, Network Analyser

principles; Measurement of Impedance, frequency, power, VSWR, Q factor, dielectric constant,S-Parameter.

L=45

TEXTBOOK:1. Annapurna Das and Sisir K Das, Microwave Engineering, Tata Mc Graw Hill Inc.,

2004

2. M.M.Radmanesh, RF and Microwave Electronics, Pearson Education, Inc., 2001.

REFERENCE:

1. S.Y.Liao, Microwave Devices and Circuits, Pearson Education Limited, 2003.

2. Robert E.Colin, Foundations for Microwave Engineering, McGraw Hill, 1992.3. D.M.Pozar, Microwave Engg., John Wiley & sons, Inc., 1999.4. Reich J.H.etal, Microwaves, East West Press, 1978.5. K.C.Gupta, Microwaves, Wiley Eastern Ltd., 1995.


37/86

EC386 COMMUNICATION SYSTEM AND NETWORK LAB 0 0 3 2

1. Signal Sampling, reconstruction and Time Division Multiplexing

2. AM/FM Modulator and Demodulator

3. Pulse Code Modulation and Demodulation

4. Delta Modulation and Demodulation

5. FSK, PSK and DPSK schemes (Simulation)

6. Analysis of logical link control layer protocols Stop & wait, Sliding window

7. Analysis of MAC protocols ALOHA, SLOTTED ALOHA, CSMA, CSMA/CD,TOKEN BUS, TOKEN RING.

8. Client / Server communication using TCP / UDP Socket programming

9. Data packet scheduling, Congestion control, transmission flow control algorithms


38/86

EC387 TELEMATICS AND MEDICAL ELECTRONICS LAB 0 0 3 2

1. Switches / Routers2. TDM3. Wi-Fi Physical Layer4. Wi-Fi MAC Layer5. Cryptography (Network Security) Experiment I6. Cryptography (Network Security) Experiment II7. DTMF generation (using DSP)8. Speech Compression (using DSP)9. Equalization (using DSP)10.Echo Cancellation (using DSP)11.Recording of ECG signal and analysis.12.Recording of audiogram.13.Recording of EMG.14.Study and analysis of safety aspects of surgical diathermy.15.Monitoring of electrical safety of hospital equipments.16.Measurement of PH,PO2 and conductivity.17.Recording of various physiological parameters using patient monitoring system and

telemetry units.

18.Study of spectra of bio signals using spectrum analyzer.


39/86

EC471 WIRELESS AND MOBILE COMMUNICATION 3 0 0 3

1. CELLULAR CONCEPT AND SYSTEM DESIGN FUNDAMENTALS 7Evolution of Mobile Communication- trends in Cellular radio and personal communications-

Cellular concept-Frequency reuse - channel assignment- hand off- interference & system

capacity- trunking & grade of service.

2. MOBILE RADIO PROPAGATION 7

Large scale path loss Path loss models -Link Budget design small scale fading- Fading due to

Multipath time delay spread flat fading frequency selective fading Fading due to Doppler

spread fast fading slow fading Parameters of mobile multipath channels Time dispersionparameters-coherence bandwidth Doppler spread & Coherence time.

3. OFDM & SPACE-TIME CODING 10

OFDM transmitter Receiver Architecture Synchronization issues -Bit Loading- Space

Time Coding- Diversity gain -SISO SIMO MISO MIMO.

4. MULTIPATH MITIGATION TECHNIQUES 12

Equalization Techniques-Adaptive Equalization algorithms -Diversity Techniques Space

diversity - Frequency Diversity Polarization diversity -Time Diversity- Channel coding

(review)-Interleaving - RAKE Receiver.

5. MULTIPLE ACCESS TECHNIQUES 9

Principles of FDMA, TDMA & CDMA -Capacity Calculations GSM & GPRS, CDMA in IS-

95 / CDMA 2000.

L= 45

TEXTBOOK:

1. Rappaport,T.S., Wireless communications, Pearson Education, 2003.

REFERENCE:

1. Blake,R., Wireless Communication Technology, Thomson Delmar, 2003.2. Lee,W.C.Y., Mobile Communication Engineering, McGraw Hill, 1998.3. Paulraj,A., Nabar,R. & Gore,D., Introduction to Space Time Wireless communication,

Cambridge University Press, 2003.

4. Van Nee, R. and Ramji Prasad, OFDM for wireless multimedia communications, ArtechHouse, 2000.


40/86

EC472 VLSI DESIGN 3 0 0 3

1. MOS TRANSISTOR PRINCIPLES 9

MOS Technology and VLSI, Process parameters and considerations for, MOS and CMOS,Electrical properties of CMOS circuits and Device modelling. CMOS Inverter Scaling CMOS

circuits, Scaling principles and fundamental limits.

2. COMBINATIONAL LOGIC CIRCUITS 9

Propagation Delays, Stick diagram, Layout diagrams, Examples of combinational logic design,

Elmores constant, Dynamic Logic Gates, Pass Transistor Logic, Power Dissipation, LowPower Design principles.

3. SEQUENTIAL LOGIC CIRCUITS 9

Static and Dynamic Latches and Registers, Timing Issues, Pipelines, Clocking strategies,Memory Architectures, and Memory control circuits, Synchronous and Asynchronous Design.

4. DESIGNING ARITHMETIC BUILDING BLOCKS 9

Datapath circuits, Architectures for Adders, Accumulators, Multipliers, Barrel Shifters, Speed

and Area Tradeoffs

5. IMPLEMENTATION STRATEGIES 9

Full Custom and Semicustom Design, Standard Cell design and cell libraries, FPGA building

block architectures, FPGA interconnect routing procedures.

L = 45

TEXTBOOK:

1. Jan Rabaey, Anantha Chandrakasan, B Nikolic, Digital Integrated Circuits: ADesign Perspective. Second Edition, Feb 2003, Prentice Hall of India..

2. M J Smith, Application Specific Integrated Circuits, Addisson Wesley, 1997.

REFERENCE:

1. Anantha Chandrakasan, W.J, Bowhill and F.Fox, Design of High PerformanceMicroprocessor Circuits, John Wiley, 2000.

2. N.Weste, K. Eshraghian Principles of CMOS VLSI Design. Second Edition,1993 Addision Wesley


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EC473 OPTICAL COMMUNICATION AND NETWORKING

3 0 0 3

1. OPTICAL FIBERS 9

Introduction and overview, light propagation in optical fibers, ray and mode theory of light,

optical fiber structure and characteristics, fiber materials, fiber fabrication techniques, optical

signal attenuation mechanisms, merits and demerits of guided and unguided optical signal

transmissions.

2. TRANSMISSION CHARACTERISTICS 9

Optical signal distortion Group delay, material dispersion, waveguide dispersion, polarizationmode dispersion, intermodal dispersion, profile dispersion, fiber types, Standard Singlemode

Fibers, Dispersion Shifted Fibers, Dispersion Flattened Fibers, Non-zero Dispersion Fibers,

Polarization Maintaining Fibers, Dispersion compensation techniques, nonlinear effects inoptical fibers.

3. OPTICAL TRANSMITTERS 9

Physics of light emission and amplification in semiconductors , light-emitting diodes,semiconductor laser diodes , longitudinal modes, gain and index-guiding, radiation pattern, light-

current characteristic, spectral behaviour, longitudinal mode control and tunability, noise, direct

and external modulation, Laser sources and transmitters for free space communication.

4. OPTICAL RECEIVERS 9

Principles of optical detection, spectral responsivity, PIN, APD, preamplifier types, receivernoises, Signal to Noise Ratio (SNR) and Bit Error Rate (BER) , direct and coherent detection

principles, practical constraints in coherent detection, power and noise budget, jitter and risetimebudget.

5. OPTICAL NETWORKING PRINCIPLES AND COMPONENTS 9WDM optical networks, SONET/SDH/FDDI optical networks, layered optical network

architecture, Optical couplers, filters, isolators, switches, optical amplifiers: erbium doped fiber

amplifiers, semiconductor optical amplifiers.

L = 45

TEXTBOOK:

1. Gerd Kaiser , Optical fiber communications, third edition, McGrawHill publishers,Newyork, 2000.

2. Govind P. Agrawal, Fiber-optic communication systems, second edition, John Wiley& sons, Newyork, 1997.

REFERENCE:

1. John M. Senior, Optical fiber communications- principles and practice, second edition,Prentice-Hall of India Pvt. Ltd, NewDelhi, 2003.

2. Rajiv Ramasamy & Kumar N. Sivarajan, Optical networks A practical perspective,Harcourt Asia Private Limited, Singapore, 1998.


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EC474 ANTENNAS AND WAVE PROPAGATION 3 0 0 3

1. FUNDAMENTALS OF RADIATION. 9

Definition of antenna parameters Gain , Directivity , Effective aperture , Radiation Resistance,Band width , Beam width , Input Impedance. Matching Baluns ,Polarization mismatch,

Antenna noise temperature, Radiation from oscillating dipole , Half wave dipole . Folded

dipole, Yagi array.

2. APERTURE ANTENNAS 9

Radiation from rectangular apertures, Uniform and Tapered aperture, Horn antenna , Reflector

antenna , Aperture blockage , Feeding structures , Microstrip antennas Radiation mechanism Application .

3. ANTENNA ARRAYS 9

N element linear array, Pattern multiplication, Broadside and End fire array Concept of Phased

arrays, Adaptive array , Basic principle of antenna Synthesis-Binomial array

4. SPECIAL ANTENNAS 9Principle of frequency independent antennas Biconical, Helical, Log periodic, Slot antennas ,

Turnstile and Super turnstile antennas , Reconfigurable antenna, Active antenna , Dielectric

antennas ,Antenna measurements- Radiation pattern, polarization , VSWR.

5. PROPAGATION OF RADIO WAVES 9

Modes of propagation , Structure of atmosphere , Ground wave propagation , Sky wavepropagation Virtual height ,critical frequency , Maximum usable frequency Skip distance ,

Fading , Multi hop propagation Tropospheric propagation , Duct propagation , Troposcatterpropagation , Flat earth and Curved earth concept .

L = 45TEXTBOOK:

1. John D Kraus Antennas McGraw Hill, 2002.

2. Jordan E.C. Electromagnetic Waves and Radiating systems, PHI, 1979.

REFERENCE:

1. R.E. Collins Antennas and Radio wave propagation`` McGraw hill 1985

2. Balanis.C.S Antenna theory analysis and design`` John Wiley, 19823. Eliot R.S., Antenna Theory and Design Prentice Hall of India Pvt. Ltd., 1981.

4. Rajeswari Chatterjee, Antenna Theory and Practice, New Age International (P)

Limited, Second Edition, 1996.

5. S.DRabowitch, A.Papiernik, H.Griffiths, etc., Modern Antennas, Chapman &Hall, 1998.


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EC475 VLSI DESIGN LAB 0 0 3 2

VLSI based experiments using MAGMA / CADENCE / TANNER / XILINX

1. Design Entry Using VHDL or Verilog, examples for circuit descriptions using HDLlanguages sequential and concurrent statements.

2. Structural and behavioral descriptions, principles of operation and limitation of HDLsimulators. Examples of sequential and combinational logic design and simulation. Test

vector generation.

3. Synthesis principles, logical effort, standard cell based design and synthesis, interpretationsynthesis scripts, constraint introduction and library preparation and generation.

4. Interpretation of standard cell library descriptions, boolean optimization, optimization forarea, power.

5. Static Timing analyses procedures and constraints. Critical path considerations.

6. Scan chain insertion, Floor Planning Routing and Placement procedures and alternatives.Back annotation, layout generation, LVS, Formal verification,

7. FPGA architectures, design entry, simulation, synthesis, P&R, back annotation and timingverification, board level testing of examples designs using logic analyzers.

8. Complete ASIC design example implementation.

9. SPICE simulations for small size standard cells.


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EC476 MICROWAVE AND OPTICAL COMMUNICATION LAB 0 0 3 2

1. Characteristics of Glass and Plastic Optical Fibers Measurement of Numerical apertureand attenuation, OTDR Principle.

2. DC Characteristic of LEDs and Pin Photodiodes - Determination of source ConversionEfficiency and Detector Responsivity

3. PI Characteristic of Laser Diodes Threshold Current Determination and TemperatureEffects

4. Gain Characteristic Of APDs Determination of break down voltage and average gain ofAPD.

5. Analog transmission Characteristic of a fiber optical link Determination of operatingrange and system bandwidth for Glass and Plastic fiber links.

6. Determination of maximum bit rate of a digital fiber optical link Glass and Plastic Fiberlinks

7. Optical link Simulation .

8. Gain and Radiation Pattern Measurement of Horn Antenna .

9. Gain and Radiation Pattern of Dipole antenna, Array antenna, Log Periodic antenna andLoop antenna.

10. Determination of mode characteristic of Reflex Klystron Oscillator

11. VSWR, Impedance Measurement & Impedance Matching.

12. Dielectric Constant Measurement.

13. Characteristic of Directional Couplers and Multiport Junction.

14. Gunn diode characteristics.


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GE481 TOTAL QUALITY MANAGEMENT 3 0 0 3

1. Concept Of TQM 9

Philosophy of TQM, Customer Focus, Organization, Top Management Commitment, Teamwork,Quality philosophies of Deming, Crossby and Muller.

2. TQM Process 9

QC Tools, Problem solving methodologies, New Management Tools, work habits, Quality Circles,Bench Marking, Strategic Quality Planning.

3. TQM Systems 9

Quality policy deployment, quality function deployment, standardization, designing for quality, manufacturing

for quality.

4. Quality System 9

Need for ISO 9000 system, advantages, clauses of ISO 9000, Implementation of ISO 9000,Quality Costs, Quality auditing, Case Studies.

5. Implementation Of TQM 9

Steps, KAIZEN, 5S, JIT, POKAYOKE, Taguchi Methods, Case Studies.

TOTAL = 45

References:

1. Rose, J.E., Total Quality Management, Kogan Page Ltd., 1993.2. John Bank, The Essence of Total Quality Management, Prentice Hall of India, 1993.

3. Greg Bounds, Lyle Yorks et all, Beyond Total Quality Management, McGraw-Hill, 1994.

4. Takashi Osada, The 5Ss The Asian Productivity Organisation, 1991.5. Masaki Imami, KAIZEN, McGraw-Hill, 1986.


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EC501 OPERATING SYSTEMS 3 0 0 3

1. OPERATING SYSTEM OVERVIEW 5Multiprogramming Time sharing Multi-user Operating systems System call Structure ofoperating systems.

2. PROCESS MANAGEMENT 10

Concept of processes Interprocess communication Racing Synchronisation Mutualexclusion scheduling Implementation issues IPC in Multiprocessor System

3. MEMORY MANAGEMENT 10Partition Paging Segmentation Virtual memory concepts Relocation algorithms Buddy

systems free space management case study.

4. DEVICE MANAGEMENT & FILE SYSTEMS 10


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I/O controller Device handler Driver Scheduling Concurrency Deadlock and starvation,

various I/O devices , Spooling, File system design Directory Management.

5.MODERN OPERATING SYSTEMS 10Concepts of distributed operating systems Real time operating systems case studies UNIXand LINUX., Windows 2000

L = 45

TEXTBOOK:

1. Abraham Silbuchatz & Peter Galvin, Operating System Concepts, Sixth Edition, JohnWiley, 2002.

2. Andrew Tanenbaum, Modern Operating Systems, 2nd Edition, Prentice Hall, 2003.

REFERENCE:1. Stallings W., Operating Systems, Fifth Edition, Prentice Hall, 20042. Ellen Siever, Aaron Weber, Stephen Figgins, LINUX in a Nutshell, Fourth Edition, O

Reilly, 2004

EC502 OBJECT ORIENTED PROGRAMMING 3 0 0 3

1. Fundamentals 9

Object-Oriented Programming concepts Encapsulation Constructors andDestructors -Programming Elements Program Structure Enumeration Types

Functions and Pointers Function Invocation Overloading Functions Scopeand Storage Class Pointer Types Arrays and Pointers Call-by-Reference Assertions Standard template library.

2. Implementing ADTs and Encapsulation 9


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Aggregate Type struct Structure Pointer Operators Unions Bit Fields DataHandling and Member Functions Classes Static Member this Pointer reference semantics implemetation of simple ADTs.

3. Polymorphism 9

ADT Conversions Overloading Overloading Operators Unary Operator Overloading BinaryOperator Overloading Function Selection Pointer Operators Visitation Iterators containers List List Iterators.

4. Templates 9

Template Class Function Templates Class Templates Parameterizing STL Algorithms Function Adaptors.

5. Inheritance 9

Derived Class Typing Conversions and Visibility Code Reuse Virtual Functions Templatesand Inheritance Run-Time Type Identifications Exceptions Handlers Standard Exceptions.

TOTAL = 45

Text Books:

1. Ira Pohl, Object-Oriented Programming Using C++, Pearson Education, Second Edition, 2003.

References:1. Stanley B. Lippman, Josee Lajoie, C++ Primer, Pearson Education, Third Edition, 2004.2. Kamthane, Object Oriented Programming with ANSI and Turbo C++, Person Education,

2002.3. Bhave, Object Oriented Programming With C++, Pearson Education, 2004.4. Dietel & Dietel, C++ How to Program, Second Edition, Prentice Hall.

EC503 ARTIFICIAL INTELLIGENCE 3 0 0 3

1. PROBLEMS - PROBLEM SPACES AND PROBLEM SOLVING 9

State space search production systems forward and backward reasoning hill climbingtechniques Breadth first search best first search problem reduction means ends analysis

constraint satisfaction.

2. KNOWLEDGE REPRESENTATION 9

Predicate logic resolution conversion to clause form unification algorithm questionanswering natural deduction Non monotonic resening statistical and probabilistic


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reasoning semantic nets conceptional dependency frames scripts procedural

representation Forward backward chains.

3. GAME PLAYING 9

Minimax search procedure alpha beta cut offs additional refinement waiting forquiescence secondary search using books moves, limitations of the methods specific games

like chess etc.

4. ADVANCED PROBLEM SOLVING 9

Simple planning non linear planning hierarichal planning backward approach delta

min expert systems structure of an expert system interacting with an expert system TMS-

MYCIN.

5. APPLICATIONS AND LANGUAGES 9

Natural languages understanding language generation machine translation perception Waltz algorithm learning rote learning learning in GPS concept learning discovery as

learning A1 languages LISP PROLOG.

L=45TEXTBOK:

1. Elaine Rich & Kevin Knignt,Artificial Intelligence, 2nd Edition, TMH, 1991

2. N.J. Nilsson, Principles of Artificial Intelligence, Tioga, 1990

REFERENCE:

1. Charniak.E., Riesbeck.C.K. and McDermott, Artificial intelligence programming,Erlbaum Hillsdale, New Jersey, 1985

2. Barr.A. and Feigenbaum.E.A., The handbook of Artificial Intelligence, Kaufman 1981.

EC504 NERUAL NETWORKS & FUZZY SYSTEMS 3 0 0 3

1. INTRODUCTION TO NEURAL NETWORKS 6Introduction Biological neural network Artificial neural network typical architectures

Types of training common activation function Different types of learning Linearseparability Mc culloach pitts

2. NEURAL NETWORK ARCHITECTURES I 12

Perceptrons Adaline Madaline Associative nets- Ho[p field nets BAM


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3. NEURAL NETWORK ARCHITECTURES II 12

Maxnet kohonen self-organizing maps LVQ CPN- BPN ART 1 ART 2

4. CLASSICAL AND FUZZY SETS 7

Introduction Classical sets and fuzzy sets classical relations and fuzzy relations Membership functions

5. FUZZY BASED APPLICATIONS 8

Fuzzy-to-crisp conversions classical logic and fuzzy logic fuzzy rule based systems fuzzydecision making fuzzy pattern recognition fuzzy control systems

L = 45

TEXTBOOK:

1. Laurene Fausett Fundamentals of Neural Networks, Algorithms and applications,Prentice Hall, 1993

REFERENCE:

1. Timothy J.Ross, Fuzzy logic with Engineering applications, McGraw Hill.


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EC505 NEURAL NETWORKS AND ITS APPLICATIONS 3 0 0 3

1.INTRODUCTION TO ARTIFICIAL NEURAL NETWORKS 9

Neuro-physiology - General Processing Element - ADALINE - LMS learning rule -MADALINE - MR2 training algorithm.

2.BPN AND BAM 9

Back Propagation Network - updating of output and hidden layer weights -application of BPN associative memory - Bi-directional Associative Memory - Hopfield memory - traveling sales

man problem.

3.SIMULATED ANNEALING AND CPN 9

Annealing, Boltzmann machine - learning - application - Counter Propagation network -

architecture -training - Applications.

4.SOM AND ART 9

Self organizing map - learning algorithm - feature map classifier - applications - architecture of

Adaptive Resonance Theory - pattern matching in ART network.

5.NEOCOGNITRON 9

Architecture of Neocognitron - Data processing and performance of architecture of spacio -temporal networks for speech recognition.

L = 45

TEXTBOOK:

1. J.A. Freeman and B.M.Skapura , "Neural Networks, Algorithms Applications andProgramming Techniques", Addison-Wesely,2003.

REFERENCE:1. Laurene Fausett, "Fundamentals of Neural Networks: Architecture, Algorithms and

Applications", Prentice Hall, 1994


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EC506 CRYPTOGRAPHY AND NETWORK SECURITY 3 0 0 3

1. NUMBER THEORETIC AND ALGEBRAIC ALGORITHMS 9

Structure of Zn and Zn, Fermats little theorem, Eulers theorem. Types of algorithms based on time

estimates: polynomial, sub exponential, exponential. Euclidean algorithm for computing the gcd of two

integers. Primality testing: pseudo-prime test. Rabin-Miller test, AKS test, Irreducible polynomials,

primitive polynomials, construction of finite fields.

2. INFORMATION THEORETIC APPROACH, CLASSICAL BLOCK AND STREAM

CIPHERS 9

Shannons theory on perfect secrecy, shift, affine, substitution, vigenere, permutation, DES, AES, LFSR,

random properties of shift register sequences.

3. PUBLIC KEY CRYPTOGRAPHY, AUTHENTICATION & INTEGRITY 9

RSA, Diffie-Hellman key exchange, E1 Gamal, Elliptic curve cryptosystem, factoring: Pollards p-1

method, Discrete logarithm problem: Pohlig-Hellman method. Collision free and strong collision free

functions, birthday attacks, SHA-1, MD5, Signature schemes: RSA, DSA, Zero-knowledge techniques.

4. SECURITY TECHNOLOGIES 9Firewalls, Virtual private Networks, Switch security, Intrusion Detection, E-mail security, SSL and TLS,

IP Sec.

5. WIRELESS SECURITY & PUBLIC KEY INFRASTRUCTURE 9

Current wireless technology, wireless security, WEP Issues, Deploy wireless safety.

PKI PKI certificates, key and certificate life cycle management.

L = 45

TEXT BOOK:

1. Douglas R. Stinson, Cryptography: Theory and Practice, CRC Press Series on DiscreteMathematics and its applications, 1995.

2. Jan C A Van Der Lubbe, Basic methods of cryptography, Cambridge University Press, 1998.3. W.Stallings, Cryptography and Network Security: Principles and practice, Prentice Hallengineering/Science/Mathematics, Third Ed. 2003.

REFERENCE:

1. N.Koblitz, A course in Number Theory and Cryptography, (Second Ed.) Springer-Verlag,1994.

2. A.JU. Menezes, P.C. Van Oerschot and S.A. Vanstone, Handbook of Applied Cryptography,CRC Press, 1996.

3. B.Schneier, Applied Cryptography: Protocols, Algorithms, and Source code in C.John Wileyand Sons, Second Edition, 1996.

4. W.Stallings, Cryptography and Network Security: Principles and practice, Prentice Hall

engineering/Science/Mathematics, Third Ed. 2003.5. Eric Mainwald, Network Security A Beginners Guide, Tata McGraw Hill, Second Edition,2003.

6. Paul Campbell, Ben Calvert, Steven Boswell, Security + Indepth, Thomson Delmar Learning,2004.

7. Charlie Kaufman, Radia Perlman, Mike Speciner, Network Security Private Communicationin a public world, Pearson Education, Second Edition, 2003.


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EC507 PARALLEL AND DISTRIBUTED PROCESSING 3 0 0 3

1. PARALLEL ARCHITECTURE 9

Parallel Computer Models, Program and Network properties, Principles of scalable performance

2. PROCESSORS AND MEMORY HIERARCHY, BUS 9Advanced processor Technology, Super scalar and vector processor, Memory hierarchy

technology, Virtual Memory Technology, Backplane Bus systems.

3. PIPELINING AND SUPER SCALAR TECHNIQUES 9

Linear Pipeline, Nonlinear pipeline, Instruction pipeline, Arithmetic pipeline, Superscalar and

super pipeline design, Parallel and scalable architectures- Multiprocessor and multicomputers.

4. SOFTWARE FOR PARALLEL PROGRAMMING 9

Parallel programming models, languages, compliers- Parallel Program Development andEnvironments.

5. DISTRIBUTED SYSTEMS 9

Models, Hardware concepts, communication, synchronization mechanism, case study: MPI and

PVM, Distributed file systems.

L = 45

TEXTBOOK:

1. Hwang. K, Advanced computer Architecture: Parallelism, scalability,Programmability, Tata McGraw Hill, 1993.

2. Tanenbaum A.S. Distributed Operating Systems, Peaeson Education Asia, 2002.

REFERENCE:1. V.Rajaraman and C.Siva Ram Murthy, Parallel Computers Architecture and

Programming, PHI, 2000.2. Hwang. K. Briggs F.A., Computer Architecture and Parallel Processing , Tata

McGraw Hill, 1989.

3. Quinn, M.J., Designing efficient algorithms for parallel computers, McGraw -Hill,1995.

4. Culler, D.E., Parallel Computer Architecture, A Hardware Software approach,Harcourt Asia Pte. Ltd., 1999.


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EC508 WEB TECHNOLOGY 3 0 0 3

1. INTRODUCTION 9

Internet principles- Basic Web concepts- Client Server Model- Retrieving data from Internet-protocols and applications

2. FUNDAMENTALS OF JAVA 9

Statements- expressions- arrays- classes- objects- packages- Inheritance- Interface-Multithreading- Applets-AWT- JDBC.

3. SOCKET PROGRAMMING 9

Streaming Networking principles sockets- protocol handlers content handlers multicasting

Remote method Invocation activation Serialization Marshal streams.

4. MARKUP LANGUAGES AND SCRIPTING 9

HTML and scripting languages- SGML Dynamic Web contents- cascading style sheets- XML-

DTD- Schemas Document Object model Introduction to SOAP.

5. SERVER SIDE PROGRAMMING 9

Server side includes- communication TCP and UDP CGI concepts- servlet programming-

Active Server Pages Java server pages- firewalls- proxy server, online Applications

L = 45

TEXTBOOK:

1. Deitel and Deitel, Nieto, Sadhu, XML How to Program, Pearson Education publishers, 2001.

REFERENCE:

1. Eric Ladd, Jim O Donnel, Using HTML 4, XML and Java, Prentice Hall of India QUE,

1999.2. Jeffy Dwight, Michael Erwin and Robert Niles, Using CGI, prentice Hall of India QUE,

1999.

3. Scot Johnson, Keith Ballinger, Davis Chapman, Using Active Server Pages, Prentice Hall ofIndia, 1999.

4. A.Keyton Weissinger, ASP in a Nutshell, OReilly Publications,1999.

5. Elliotte Rusty Harold, Java Network Programming, Second Edition, OReilly

Publications,2000.


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EC509 NATURAL LANGUAGE PROCESSING 3 0 0 3

1. INTRODUCTION 5

Introduction to NLP (History, Current applications), Morphology, Syntax and Semantics.

2. SYNTAX 10

Phrase Structure rules, Transformational rules, Principles and Parameters: Complements &Trees, X-bar Theory, Movements & Traces, Subject Raising, The Empty Category Principle.

3. AUTOMATA 10Transducers and Parsing, Recursive and augmented transition networks, Context free Grammars,

Part of Speech Taggers, Morphological Analyzers.

4. SEMANTICS 10Logical form, Compositionality, Lexical Semantics, Disambiguation, Discourse analysis and

References.

5. APPLICATIONS OF NLP 10

Machine Translation, Information Extraction, Information retrieval.

L = 45

TEXTBOOK:

1. Daniel Jurafsky and James Martin. 2000. Speech and Language Processing. PrenticeHall.

REFERENCE:

1. James Allen. 1995. Natural Language Understanding. Benjamin Cummings, 2ed.2. Daniel Jurafsky and James Martin. 2000. Speech and Language Processing. Prentice

Hall.

3. Geofferey Poole.2002. Syntactic Theory, Palgrave.4. Christopher Manning and H. Schuetze. Foundations of Statistical Natural

Language Processing, MIT Press, 1999.


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EC510 ADVANCED MICROPROCESSORS 3 0 0 3

1. THE INTEL X86 FAMILY 9

The intel x86 Family architecture,32 bit processor evaluation,system connection and

tunning,instruction and data formats,instruction wt of x86 processor addresing modes.

2. INTEL X86 ASSEMBLY LANGUAGE PROGRAMMING 9Implementation of strings,proceures,macros,BIOS and DOS services using x 86 assembly

language programming Memory and I/Ointerfacing,Analog interfacing and Industrial control.

3. SYSTEM DEVELOPMENT 9

Micropricessor Based System Design,TMS 320 seriesDSP based signal

processing,Microcontroller 8096,8096 based system design

Documents

BE ECE Curriculum-2004 Full Time