B.Tech. III- E&Tc 2012-2013 - Government College of Engineering

GOVT. COLLEGE OF ENGINEERING,

AMRAVATI (An Autonomous Institute of Government of Maharashtra)

B. Tech. (Electronics and

Telecommunication)

V and VI Semester

CURRICULUM

Department of Electronics and Telecommunication

2012-13

GOVERNMENT COLLEGE OF ENGINEERING, AMRAVATI

Department of Electronics and Telecommunication Engineering

Scheme for B. Tech. (Electronics and Telecommunication )

SEM III

Course

Code Name of the Course

Teaching Scheme Evaluation Scheme

Credits

Theory Practical

Total

Theory

Hrs /week

Tutorial

Hrs/week

Practical

Hrs/week Total TA CT1 CT2 ESE ICA ESE

SHU303 Engineering Mathematics - III 3 -- --- 3 10 15 15 60 --- --- 100 3

ETU301 Network analysis 3 --- --- 3 10 15 15 60 --- --- 100 3

ETU302

Components ,Devices and

Instruments Technology 3 1

--- 4 10 15 15 60 --- --- 100 4

ETU303

Electronics Devices and

Circuits 3 1 --- 4 10 15 15 60 --- --- 100 4

ETU304 Digital Electronics 3 --- --- 3 10 15 15 60 --- --- 100 3

SHU305 General Proficiency - II 1 --- 2 3 --- --- --- --- 25 25 50 2

ETU305 Network Analysis Lab --- --- 2 2 --- --- --- --- 25 25 50 1

ETU306 Components ,Devices and

Instruments Technology Lab

--- --- 2 2 --- --- --- --- 25 25 50 1

ETU307 Electronics Devices and

Circuits Lab --- --- 2 2 --- --- --- --- 25 25 50 1

ETU308 Digital Electronics Lab --- --- 2 2 --- --- --- --- 25 25 50 1

Total 16 2 10 28 50 75 75 300 125 125 750 23

SEM IV

Course



Credits

Theory Practical

Total

Theory

Hrs /week

Tutorial

Hrs/week

Practical


SHU401

Engineering Mathematics -

IV 3 -- --- 3 10 15 15 60 --- --- 100 3

ETU401 Signals and Systems 3 1 --- 4 10 15 15 60 --- --- 100 4

ETU402 Analog Circuits 3 1 --- 4 10 15 15 60 --- --- 100 4

ETU403

Microprocessor and its

Interfacing 3 --- --- 3 10 15 15 60 --- --- 100 3

ETU404 Control System Engineering 3 --- --- 3 10 15 15 60 --- --- 100 3

ETU405

Object Oriented Programming

Lab 1 --- 2 3 --- --- --- --- 50 - 50 2

ETU406 Signals and Systems Lab --- --- 2 2 --- --- --- --- 25 25 50 1

ETU407 Analog Circuits Lab --- --- 2 2 --- --- --- --- 25 25 50 1

ETU408

Microprocessor and its

Interfacing Lab --- --- 2 2 --- --- --- --- 25 25 50 1

ETU409 Control System Engineering

Lab

--- --- 2 2 --- --- --- --- 25 25 50 1

Total 16 2 10 28 50 75 75 300 150 100 750 23

TA :Teacher Assessment CT: Class Tests ESE: End Semester Examination ICA : Internal Continuous Assessment ESE

Duration for Th: 2Hrs 30Min

GOVERNMENT COLLEGE OF ENGINEERING, AMRAVATI



SEM V

Course



Credits

Theory Practical

Total

Theory

Hrs /week

Tutorial

Hrs/week

Practical


ETU501

Linear Integrated Circuits

and Applications 3 --- --- 3 10 15 15 60 --- --- 100 3

ETU502 Analog Communication 3 --- --- 3 10 15 15 60 --- --- 100 3

ETU503 Power Electronics 3 --- --- 3 10 15 15 60 --- --- 100 3

ETU504

Microcontroller and Its

Applications 3 --- --- 3 10 15 15 60 --- --- 100 3

ETU505 Human Resource and

Economics 3 --- --- 3 10 15 15 60 --- --- 100 3

ETU506

Linear Integrated Circuits

and Applications Lab

--- --- 2 2 --- --- --- --- 25 25 50 1

ETU507 Analog Communication Lab --- --- 2 2 --- --- --- --- 25 --- 25 1

ETU508 Power Electronics Lab --- --- 2 2 --- --- --- --- 25 25 50 1

ETU509

Microcontroller and Its

Applications Lab

--- --- 2 2 --- --- --- --- 25 25 50 1

ETU510 Data Structure Lab 1 --- 2 3 --- --- --- --- 25 25 50 2

ETU511 Self Study - I --- --- ---- --- 25 --- --- --- --- --- 25 2

Total 16 --- 10 26 75 75 75 300 125 100 750 23

ETU511 Self Study- I is based on one class test each on the basis of 20 % curriculum of the courses ETU501 to ETU504 declared by

respective course coordinator at the beginning of semester. One faculty member shall be appointed as course coordinator for self study and

his/her teaching workload shall be considered one hour/week

SEM VI

Course



Credits

Theory Practical

Total

Theory

Hrs /week

Tutorial

Hrs/week

Practical


ETU601 Electromagnetic Fields 3 -- --- 3 10 15 15 60 --- --- 100 3

ETU602

Audio and Video

Engineering 3 --- --- 3 10 15 15 60 --- --- 100 3

ETU603 Electronic Measurements 3 --- --- 3 10 15 15 60 --- --- 100 3

ETU604 Digital Signal Processing 3 --- --- 3 10 15 15 60 --- --- 100 3

ETU605

Industrial Management and

Operation Research 3 --- --- 3 10 15 15 60 --- --- 100 3

ETU606

Audio and Video

Engineering Lab --- --- 2 2 --- --- --- --- 25 25 50 1

ETU607

Electronic Measurements

Lab --- --- 2 2 --- --- --- --- 25 --- 25 1

ETU608

Digital Signal Processing

Lab --- --- 2 2 --- --- --- --- 25 25 50 1

ETU609 Circuit Simulation Lab --- --- 2 2 25 25 50 1

ETU610 Mini Project ---- ---- 2 2 --- ---- --- ---- 25 25 50 2

ETU611 Self Study - II --- --- ---- --- 25 --- --- --- --- --- 25 2

ETU612 Industrial Lecture - I 1 --- ---- 1 --- --- --- --- --- --- --- ---

Total 16 --- 10 26 75 75 75 300 125 100 750 23

1) ETU611 Self Study- II is based on one class test each on the basis of 20 % curriculum of the courses ETU601 to ETU604 declared by

respective course coordinator at the beginning of semester . One faculty member shall be appointed as course coordinator for self study and


2) Assessment of ETU612 Industrial Lecture- I is scheduled in VIIth semester with ETU711 Industrial Lecture- II

TA :Teacher Assessment CT: Class Tests ESE: End Semester Examination ICA : Internal Continuous Assessment ESE


GOVERNMENT COLLEGE OF ENGINEERING, AMRAVTI



SEM VII

Course


Teaching Scheme

Evaluation Scheme Credits

Theory Practical Total

Theory

Hrs /week

Tutorial

Hrs/week

Practical

Hrs/week

Total TA CT1 CT2 ESE ICA ESE

ETU701 Digital System Design 3 --- --- 3 10 15 15 60 --- --- 100 3

ETU702 Digital Communication 3 --- --- 3 10 15 15 60 --- --- 100 3

ETU703 Elective - I 3 --- --- 3 10 15 15 60 --- --- 100 3

ETU704 Interdisciplinary Elective 3 --- --- 3 10 15 15 60 --- --- 100 3

ETU705 Digital System Design Lab --- --- 2 2 --- --- --- --- 25 25 50 1

ETU706 Digital Communication Lab --- --- 2 2 --- --- --- --- 25 25 50 1

ETU707 Elective - I Lab --- --- 2 2 --- --- --- --- 25 25 50 1

ETU708 Project Phase - I --- --- 4 4 --- --- --- --- 50 -- 50 2

ETU709 Seminar --- --- 2 2 --- --- --- --- 25 25 50 2

ETU710 Industrial Training/ Visit --- --- --- --- --- --- --- --- 50 --- 50 1

ETU711 Industrial Lecture - II 1 --- --- 1 --- --- --- --- 25 --- 25 1**

ETU712 Self Study - III --- --- --- ---- 25 --- --- --- --- --- 25 2

Total 13 --- 12 25 65 60 60 240 225 100 750 23

1) ETU712 Self Study - III is based on one class test each on the basis of 20 % curriculum of the courses ETU701 to ETU703 declared by



2) Credit shall be awarded on the basis of combined assessment of ETU612 Industrial Lecture - I and ETU711 Industrial Lecture - II

3) Students of this department shall select any one Interdisciplinary Elective offered by other department. Interdisciplinary Elective shown

below will be offered to students of other department.

SEM VIII

Course



Credits

Theory Practical

Total

Theory

Hrs /week

Tutorial

Hrs/week

Practical

Hrs/week Total

T

A CT1 CT2 ESE ICA ESE

ETU801

Computer Network and

Communication 3 --- --- 3 10 15 15 60 100 3

ETU802 Microwave Engineering 3 --- --- 3 10 15 15 60 --- --- 100 3

ETU803 Elective - II 3 --- --- 3 10 15 15 60 --- --- 100 3

ETU804 Elective - III 3 --- --- 3 10 15 15 60 --- --- 100 3

ETU805

Computer Network and

Communication Lab --- --- 2 2 --- --- --- --- 25 25 50 1

ETU806 Microwave Engineering Lab --- --- 2 2 --- --- --- --- 25 25 50 1

ETU807

Elective - II and Elective -

III Lab --- --- 2 2 --- --- --- --- 25 25 50 1

ETU808 Project --- --- 6 6 --- --- --- --- 75 100 175 6

ETU809 Self Study - IV --- --- --- --- 25 --- --- --- --- ---- 25 2

Total 12 --- 12 24 65 60 60 240 150 175 750 23

ETU809 Self Study - IV is based on one class test each on the basis of 20 % curriculum of the courses ETU801 to ETU804 declared by



TA :Teacher Assessment CT: Class Tests ESE: End Semester Examination ICA : Internal Contineous Assessment ESE


ETU703 Elective - I ETU704 Interdisciplinary

Elective

ETU803 Elective - II ETU804 Elective - III

A. Fibre Optic Communication

A. Electronics Instruments

and Applications

A. Wireless Communication A. Sattelite Communication Systems

B. Embedded System B. Industrial Electronics B. VLSI Design B. Modern Electronic Design Technique

C. System Software

C. Introduction to System

Engineering

C. Open Source Operating

system

C. Antenna and Radar

D. Fuzzy Logic and Neural

Network

D. Digital Image Processing

E. Bio Informatics E .Industrial Automation

ETU501 LINEAR INTEGRATED CIRCUITS AND APPLICATIONS Teaching Scheme: 03L+0T Total: 03 Credits: 03

Evaluation Scheme: 15 CT1 + 15 CT2 + 10 TA + 60 ESE Total Marks: 100

ESE Duration: 2 Hrs. 30 Min.

Introduction to Op-amp: Introductory concept and fundamentals like decibel, bode plot,

circuit simulations, etc., differential amplifier fundamentals, transistorised configurations,

DC and AC analysis, transfer characteristics, electrical specifications, constant current

bias, current mirror, ideal op-amp characteristics; schematic development stages of op-

amp: current sources and active loads, difference, intermediate and output stages

including Miller capacitors for frequency computation.

Op-amp Frequency Response and Compensation: Circuit stability, frequency and

phase response, frequency compensating methods, bandwidth, slew rate effects, Zin mod

compensation, and circuit stability precautions.

Op-amp Applications: Inverting and non-inverting, voltage follower, differential and

bridge amplifiers, summer, integrator, differentiator, voltage-to-current and current-to-

voltage converters, instrumentation and isolation amplifiers, comparators, clippers and

clampers, precision rectifiers, logarithmic amplifiers.

Waveform Generation: Triangular / rectangular wave generators, oscillators: harmonic,

tuned, phase shift, relaxation, wein bridge; astable and monostable multivibrator, schmitt

trigger circuits, crossing detectors.

Active Filters: Response and analysis of first and second order Butterworth filter,

response of Chebyshev and Elliptic filters.

Special Integrated Circuits: IC555 timer: Basic timer circuit and its application as

astable and monostable multivibrator; phase locked loop (PLL): operating principles,

phase detector / comparator; voltage controlled oscillator (VCO).

Text Books

1. Operational Amplifiers and Linear ICs, D. A. Bell, 2nd

edition, PHI/Pearson, 2004

2. Op-amps and Linear Integrated Circuits, R. A. Gayakwad, 4th

edition, Prentice Hall of

India, 2008

3. Design with Operational Amplifiers and Analog Integrated Circuits, S. Franco, 3rd

edition, Tata McGraw Hill, 2002

Reference Books

1. Introduction to Operational Amplifier Theory and Applications, J. V. Wait, L. P.

Huelsman and G. A. Korn, 2nd

edition ,McGraw Hill, 1991

2. Linear Integrated Circuits, D. Roy Choudhury and S. B. Jain, 2nd

edition, New Age

International, Reprint 2006

3. Linear Electronics Circuits and Devices, J. Cox, India Edition.

4. Op-amp and Linear Integrated Circuits Theory and Applications, J. M. Fiore, 1st

edition, Delmar Thompson Learning 2001.

5. The Art of Electronics, P. Horowitz and W. Hill, 2nd

edition, Cambridge University

Press, 1989.

ETU502 ANALOG COMMUNICATION

Teaching Scheme: 03L + 0T Total: 03 Credits: 03


ESE Duration: 2 Hrs. 30 Min.

Introduction to communication systems: Electromagnetic frequency spectrum,

communication systems, need of modulation and its types.

Noise: Sources of noise and its types signal to noise ratio, noise factor, noise figure, noise

temperature, noise equivalent temperature.

Amplitude (Linear)Modulation: Amplitude modulation (AM), double side band (DSB),

double side band suppressed carrier (DSB-SC), single side band (SSB), vestigial side

band modulation (VSB): generation, demodulation; independent side band (ISB)

transmission, modulation index, frequency spectrum, power requirement of these

systems, super heterodyne radio receiver. Noise in AM receivers using coherent

detection and envelop detection

Angle (Exponential) Modulation: Generalized concept and features of angle

modulation; Frequency modulation (FM): modulation index, power requirement,

frequency spectrum, bandwidth, phasor comparison of narrowband FM and AM waves,

generation of FM, demodulation, interference in FM system, pre-emphasis and de-

emphasis techniques, FM receiver, noise in FM receiver.

Phase modulation (PM): modulation index, power requirement, frequency spectrum,

bandwidth analysis of narrow band FM, wide band FM and PM, interference in angle

modulated system.

Wave propagation: Fundamentals of electromagnetic waves, Ground wave propagation,

sky wave, space wave, tropospheric scatter.

Transmission line: Fundamentals of transmission line, characteristics impedance,

standing wave ratio, quarter wave transformer, stub matching, calculation of various line

parameters using Smith chart.

Antenna: Types of antenna, radiation pattern, antenna arrays, turnstile, loop, log -

periodic, UHF and microwave, all types of latest antenna available in the market (basic

analysis and design)

Text Books 1. Communication System ,S. Haykin, 4

th edition, John Wiley and sons INC,2005

2. Modern Digital and Analog Communication Systems, B. P. Lathi, 3rd

edition, Oxford

university press, 1998

3. Electronic communication systems, G. Kennedy and B. Davis, 5th

edition, Tata Mc-

Graw Hill, 2012.

Reference Books

1. Electronic communications, R. Dennis and J. Coolen,4th

edition, Prentice Hall

2. A video course on Transmission lines and EM waves, Prof. R. K. Shevgaonkar, IIT

Mumbai

ETU503 POWER ELECTRONICS

Teaching Scheme: 03L + 0T Total: 03 Credit: 03


Duration of ESE: 2Hrs. 30 Min.

Power Semiconductor Devices: Introduction, scope and application, concept of fast

recovery diode, construction, operation and characteristics of SCR, DIAC, TRIAC,

MOSFET, IGBT, GTO, its ratings; two transistor analogy of SCR, turn on and turn off

mechanism, dynamic characteristics, gate characteristics, firing circuits and its

requirements.

SCR Equalising Circuits: Series and parallel operation, static and dynamic equalising

circuit, equalisation of current in parallel connection, string efficiency, derating factor;

protection against: di/dt, dv/dt, radio-frequency interference, over voltage and over

current.

Phase Controlled Rectifiers: Principle, natural commutation, selection criteria for

converter circuit, single phase half and full controlled bridge rectifier with R and RL load,

derivation for output voltage, current and RMS voltage; three phase half and fully

controlled bridge rectifier with highly inductive load with its circuit diagram, operation

and waveform, derivation of average and RMS load voltage, load current; effect of

freewheeling diode, single phase dual converters.

Choppers: Basic principle, types: step up and step down, AC, voltage commutated,

Jone’s; continuous and discontinuous conduction, time ratio control, current limit control.

Inverters: Series, improved series, parallel; output voltage and waveform control,

principle of operation for three phase bridge inverter in 1200and 180

0mode.

Converters: Basic principle of cycloconverters, single phase to single phase

cycloconverter.

Applications: Microcontroller based digital firing circuit for 3 phase full converter;

uninterrupted power supply (UPS) and switch mode power supply (SMPS) – operation

and configuration; speed control of DC shunt motor using phase controlled rectifiers;

speed control of three phase induction motor by stator voltage control, variable frequency

control and slip power recovery scheme; static switch, static circuit breaker, fan speed

regulator, zero voltage switch, soft start switch.

Text Books

1. Power Electronics Circuits, Devices and Applications, M. H. Rashid, 3rd

edition,

Prentice Hall of India, 2004.

2. Power Electronics, Converters, Application, and Design, N. Mohan, T. M. Undeland

and W. P. Robbins, 3rd

edition, John Willey and Sons, 2003

3. Power Electronics, M. S. Jamil Asghar, Prentice Hall of India, 2004

Reference Books 1. Industrial Electronics and Control, S. Bhattacharya, S. Chatterjee, Tata McGraw Hill

2. Power Electronics, C. W. Lander, 3rd

edition McGraw Hill International, 1993

3. Modern Power Electronics and AC Drives, B. K. Bose, 1st edition, Pearson

Education, 2003

4. SCR Manuals, General Electric corporation, 6th

edition, Prentice Hall, 1979.

ETU504 MICROCONTROLLER AND ITS APPLICATIONS



Duration of ESE: 2Hrs. 30 Min.

Introduction: Introduction to 8051, microprocessor and microcontroller comparison,

architecture of 8051, pin configuration and description, register organization, input/output

port structure, timer structure and their modes, interrupts and serial port modes.

Instruction set: Addressing modes, instruction set, bit and byte level logical operations,

illustrative programs.

Programming: Timers, Counter; Basics of serial communication, input/output and serial

port.

Hardware Interfacing and Programming: Seven segment, LCD, Keyboard, ADC,

DAC, memory, DC and Stepper motor.

Recent Microcontrollers and Applications: Introduction to 89C2051, peripheral

interface controller (PIC) microcontroller, Architecture of PIC 16C6X/7X, introduction

to Advanced RISC machine (ARM) processor, applications.

Text Books

1. Using the MCS-51 Microcontroller by Han- Way Huang, Oxford University Press

2. 8051 Microcontroller and Embedded System, Muhammad Ali Mazidi, 2nd

edition,

Prentice Hall, 2000

3. Microcontrollers: Architecture, Programming, Interfacing and System Design, Raj

Kamal, 1st edition, Pearson Education, 2005

Reference Books

1. Design with PIC microcontrollers, John B. Peatman, 1st edition, PHI, 1998

2. The 8051 microcontroller, Kenneth Ayala, 3rd

edition, Delmar Cengage Learning,

2005

3. National Semiconductor: Data Acquisition Linear Devices Data Book.

4. Embedded Microcontrollers and Processors:-Volume-I-Intel

5. Intel Peripheral Devices Data Book.

ETU505 HUMAN RESOURCE AND ECONOMICS



ESE Duration: 2 Hrs. 30 min.

Human needs: Motivation, MASLAW’s need hierarchy theory, importance of

humanities to engineer, Constitution of India rights and duties Organisation: Organization change and development, manpower planning, man power development, career management. Sustainable development: Introduction and meaning, implication of human population growth, pollution control. Psychology: Definition, nature, scope, hurdles, application in industries. Behavioral science: Importance of science and technology on culture of civilization, function of family, type of family, social responsibility of business Economics: Importance, factor of production, elasticity of demand, laws of return. Production: Cost of production, break even analysis, cost benefit analysis, Banking and taxations: Function of various banks, roles of bank in development, type

of taxation.

Business: Prevention and control of monopoly, restrictive trade practices

Globalisation: Economics and globalization, foreign collaboration, joint ventures,

impact of competition on small-scale industries, value added tax (VAT)

Text Book 1. Principle of Management (2nd edition), by P.C. Tripathy, P. N. Reddy, Tata McGraw-Hill.

Reference Books 1. Introduction to Microeconomics, by P.C. Ray, Macmillan. 2. Business Economics, by V. G. Mankar, Macmillan.

ETU506 LINEAR INTEGRATED CIRCUITS AND APPLICATIONS

LAB Teaching Scheme: 02P Total: 02 Credit: 01

Evaluation Scheme: 25 ICA + 25 ESE Total Marks: 50

ESE Duration: 3 Hours

Minimum eight experiments shall be performed to cover entire curriculum of course

ETU501. The list given below is just a guideline.

Simulation can be performed using suitable software.

List

1. To measure different parameters of op-amp (IC 741).

2. To design and implement voltage follower, adder, summer, multiplier using op-

amp.

3. To design and implement multivibrators (astable, monostable, bistable) using op-

amp.

4. To design and implement different types of Oscillators using op-amp.

5. To implement and test instrumentation amplifier using op-amp.

6. Design and test a Schmitt trigger circuit for the given values of UTP and LTP.

7. To implement and test frequency synthesis using phase locked loop.

8. To design and implement different types of waveform generators using op amp.

9. Design and test the following circuits using IC 555

a. Astable multivibrator for given frequency and duty cycle.

b. Monostable multivibrator for given pulse width-W.

Note

ICA – The Internal Continues Assessment shall be based on practical record and

knowledge/skill acquired. The performance shall be assessed experiment wise using

continuous assessment format A and B.

ESE – The End Semester Exam for practical shall be based on performance in one of the

experiments and followed by sample questions.

ETU507 ANALOG COMMUNICATION LAB Teaching Scheme: 02P Total: 02 Credits: 01

Evaluation Scheme: 25 ICA Total Marks: 25


ETU502. The list is just a guide line.

List

1. AM modulation: Calculation of Modulation Index.

2. FM modulation: Calculation of Modulation Index.

3. Demodulation of AM and FM.

4. Generation of double side band suppressed carrier.

5. Single Sideband generation.

6. Transmission line: calculation of transmission line impedance.

7. Calculation of voltage standing wave ratio.

8. Observe and plot radiation pattern of Omni-directional and directional antenna.

Note


knowledge/skill acquired. The performance shall be assessed experiment wise

using continues assessment format A and B.

ESE – The End Semester Exam for practical shall be based on performance in

one of the experiments and followed by sample questions.

ETU508 POWER ELECTRONICS LAB

Teaching Scheme: 02P Total: 02 Credit: 01


ESE Duration : 3 Hours


ETU503. The list is just a guide line.

List

1. Plot the characteristics of power diode, SCR, DIAC, TRIAC, MOSFET, IGBT

2. Implement single phase fully controlled half wave rectifier and observe the effect

of variable firing angle on the waveform.

3. Implement single phase fully controlled full wave rectifier and observe the effect


4. Implement single phase half controlled full wave rectifier and observe the effect


5. Implement step up, step down chopper

6. Demonstrate series inverter

7. Demonstrate parallel Inverter

8. Demonstrate speed control of DC motor

Note






ETU509 MICROCONTROLLER AND ITS APPLICATIONS LAB



ESE Duration: 3 Hours



List

1. Develop programs on data transfer operations such as block move, exchange,

sorting, finding largest element in an array, arranging the series in ascending and

descending order.

2. Implementation of arithmetic operations such as addition/subtraction,

multiplication and division, square, cube using look-up tables, multi byte

arithmetic operations.

3. Implementation of logical operations such as Boolean & logical instructions bit

manipulations.

4. Implement code conversion: BCD to ASCII, ASCII to decimal, decimal to ASCII,

hexadecimal to decimal and decimal to hexadecimal.

5. Programs to generate delay, programs using serial port and on-Chip timer

/counter.

6. Generation of different waveforms sine, square, triangular, ramp, etc. using

program and DAC interface to 8051.

7. Implementation of temperature control interface.

8. Interfacing basic output devices like LED, LCD, keyboard, 7-segment display,

DIP switches, Push button switches, etc.

9. Implementation of stepper and DC motor control.

Note






ETU510 DATA STRUCTURE LAB

Teaching Scheme: 01L + 02P Total: 03 Credit: 02



Arrays, Stacks and Queues: Concepts of data, algorithms, data objects and types,

storage of data in memory, array and its representation; stack: definition, concepts,

operations, expression evaluation, recursion; queue: definition, operations, stacks and

queue implementation

Linked Lists: Linear lists, operations using singly linked list, circular lists, doubly linear

lists.

Trees & Graphs: Definition, concepts and operation on binary trees and graphs, matrix

representation of graph.

Searching and Sorting: Search: linear, binary, tree; sort: bubble, quick, insertion,

selection and tree; analysis of searching and sorting techniques.

Text Books

1. An Introduction to Data Structures with Application, J. P. Tremblay and P. G.

Sorenson, McGraw Hill Education, reprint2006

2. Data Structures using C and C++, A. M. Tanenbaum, Y. Langsam and M. J.

Angenstein, 2nd

edition, Prentice Hall of India, 2002

3. C and Data Structures, Balaguruswamy, Tata McGraw Hill, 2003

References Books 1. How to Solve it by Computer, R. G. Dromey, Prentice-Hall of India, 2002

2. Data Structures and Algorithm Analysis in C, M. A. Weiss, 2nd

edition, Pearson

Education Asia, 2002

3. Data Structures - A Pseudocode Approach with C, Richard F. Gilberg, Behrouz

A. Forouzan, Thomson Brooks / COLE, 1998

4. Data Structures and Algorithms, Aho, J. E. Hopcroft and J. D. Ullman, Pearson

Education Asia, 1983

Minimum eight experiments shall be performed to cover entire curriculum of course. The

list given below is just a guideline.

List

1. Implementation of matrix operations: addition, multiplication and inverse

2. Developing a program for passing parameters to function: by value and by

reference

3. Implementation of searching methods: linear and binary

4. Implementation of sorting methods: bubble, selection and insertion.

5. Developing a student data base management system using array of structure.

6. Implementation of polynomial addition using array of structure.

7. Implementation of singly linked list with operations: create, insert, delete, search.

8. Implementation of stack using: arrays and linked list.

9. Implementation of queue using: array & linked list.

10. Evaluation of postfix expression (input will be postfix expression)

11. Conversion of an infix expression into postfix.

12. Implementation of operations on Binary search tree: create, search, recursive

traversals.

13. Implementation & operations on doubly linked list

14. Implementation of graph using adjacency matrix.

15. Debugging program(s):

a. A syntactically correct program along-with input, output sets could be

given to the students but there is a logical error, students could be asked to

debug the error(s) using ‘C’ programming.

b. A ‘C’ program could be given to the students along-with input sets and

students are expected to find out output and suggest an appropriate name

to the program.

Note






ETU 511 Self Study - I

Teaching Scheme: 0 L + 0T Total: 00 Credit: 02

Evaluation Scheme: 25 TA Total Marks: 25

ETU511 Self Study – I is based on one class test each on the basis of 20 % curriculum

of the courses ETU501 to ETU504 declared by respective course coordinator at the

beginning of semester. One faculty member shall be appointed as course coordinator for

self study and his/her teaching workload shall be considered one hour/week

ETU 601 ELECTROMAGNETIC FIELDS Teaching Scheme: 03L+ 0T Total: 03 Credits: 03


ESE Duration: 2Hrs. 30 Min.

Vector analysis: Review of scalars and vectors, vector algebra. The coordinate system:

rectangular, cylindrical and spherical. Scalar and vector fields, differential elements of

length, surface and volume.

Electrostatics: Introduction to Coulomb’s law, electric field intensity, flux density, field

of line charges, field of surface charges, Gauss’s law, divergence, divergence theorem,

Maxwell’s first equation, electric potential and potential gradient.

Magnetostatics: Current and current density, continuity equation, Biot-Savart law,

Ampere’s circuital law and applications, Curl, Stokes’s theorem, magnetic flux and flux

density, scalar and vector magnetic potentials. Maxwell’s equations: steady field,

boundary conditions, time varying fields, electric and magnetic boundary conditions.

Electromagnetic waves: Electromagnetic wave equation, wave propagation in free

space, in a perfect dielectric, and perfect conductor, skin effect, Poynting vector and

Poynting theorem, reflection and refraction of uniform plane wave at normal incidence

plane, reflection at oblique incident angle.

Waveguides: Introduction, wave equation in Cartesian coordinates, rectangular

waveguide, transverse electric(TE), transverse magnetic(TM), transverse electro-

magnetic(TEM) waves in rectangular guides, wave impedance, impedance discontinuities

and standing waves, loses in wave guide, introduction to circular waveguide.

Radiation: Retarded potential, electric and magnetic fields due to oscillating dipole

(alternating current element), power radiated and radiation resistance, application to short

monopole and dipole, basic antenna principles.

Text Books

1. Engineering Electromagnetics, W.H Hayt. and J.A. Buck, 7th

edition, Tata McGraw

Hill, 2006.

2. Electromagnetic Waves and Radiating System, E.C. Jordan and K.C. Balamin, 2nd

edition, Prentice Hall of India Private Limited, 1985.

Reference Books

1. Elements of Engineering Electromagnetics, Rao ,6th

edition, Pearson Education, 2006.

2. Electromagnetics, J. D. Krauss, 3rd

edition, Mc-Graw Hill,1984.

3. Fields and Waves in Communication Electronics, S. Ramo and R.Whinnery, 3rd

edition, John Wiley and Sons,2009.

4. Fundamental of Electromagnetic with MATLAB, K. E.Lonngren and S. V. Savov, 1st

Prentice Hall of India,2008.

ETU602 AUDIO AND VIDEO ENGINEERING



Duration of ESE: 2 Hrs.30 min.

Audio Engineering: Microphone: types, characteristics, construction and principle of operation

of carbon, condenser, electrets, moving coil, tie-clip, wireless microphone, Loudspeakers : types,

construction and operation of horn type, woofer, tweeter, column speakers, head phones and

hearing aids, cross over network, loud speaker baffles and enclosures.

Audio recording and reproduction: Sound recording and reproduction, optical recording, hi-fi

system, stereophonic and quadraphonic, binaural and dichotic, equalizers, active tone control

circuit, music synthesizers, compact disc, DVD and blue ray disc recording and reproduction,

public addressing system Introduction to telephony.

Video Engineering: Introduction, monochrome TV Camera, principles of photoelectric effects,

colorplexed composite video signal, color signal generation and encoding, TV receiver tuners,

video IF amplifier, video detector, sounds and video amplifier, color TV: tubes, receiver, color

signal decoding and matrixing.

Color Television: Transmission and reception, signal quantization and encoding, digital satellite

television, high definition television (HDTV), LED television, flat panel display TV receivers,

plasma television screen, plasma color receiver, LCD color receiver, digital light processing

(DLP) projection system.

Audio and Video coding: Introduction to Audio coding, audio compression, MPEG: block

diagram of audio encoder and decoder, digital audio broadcasting-block schematic explanation,

video coding and compression: need for compression- video image representation – quantization

of image data, intra-frame compression techniques: DPCM –DCT based transform coding.

Text Books

1. Consumer Electronics, S. P. Bali 1st edition, Pearson Education, 2005

2. The Electronics Hand Book, J. C. Whitaker, IEEE Press

3. Multimedia Communications, F. Halsal, Pearson Education

Reference Books

1. Modern Television Practice, R. R. Gulati, 3rd

edition New Age International Publishers,

2006

2. Mastering Digital Television: The Complete Guide to the DTV Conversion, Whitaker, Jerry,

McGraw Hill

3. Fundamentals of Acoustics, Kinsler, Frey, Coppens, 4th edition Wiley Eastern

ETU603 ELECTRONIC MEASUREMENTS

Teaching Scheme: 03L+ 0T Total: 03 Credits: 03


Duration of ESE: 2 Hrs. 30 min.

Basic Concepts of Measurement: Introductions, general system configuration, static and

dynamic characteristics, Statistical parameter: Arithmetic mean, average deviation, standard

deviation, types of error, Histogram, normal and Gaussian distribution of errors.

Digital Multimeters: Methods of analog-to-digital and digital-to-analog conversion,

principles of operation and typical specifications of a digital voltmeter ,description of various

types of digital voltmeter with block diagrams, digital displays for meters.

Frequency, Phase and Q-meter: Frequency meter: Analog schematic and operational

details, limitations, digital frequency meters, time interval measurements, frequency ratio

measurements, phase meters: phase measurement by voltage addition method, balanced

modulation type, phase meters using flip-flops, advantages & limitations of each type, digital

phase meters for entire audio frequency, range & its limitations. Q-meter: principle, sources

of error, measurement of stray capacitance, impedance, characteristic impedance of

transmission line. LCR meter, Tan-δ meters.

Analyzer and Generators: Analyzer: Basic wave, frequency selective wave, spectrum,

logic, harmonic distortion, generators: audio frequency generators, pulse generators, random

noise generators.

Data Display and Recorder System: Electrostatic and electromagnetic deflection of

cathode ray beam , measurement of dielectric losses, vertical and horizontal deflection

system, delay lines, schematic block diagram of analog and digital storage oscilloscope,

sampling oscilloscope, power scope, curve tracer, digital recorder and printers.

Text books

1. Electronics Instrumentation and Measurement Techniques, W. D. Cooper and A. D.

Helfrick, third edition Prentice Hall of India, 1985

2. Instruments Devices and System, C. S. Rangan, Tata McGraw Hill ,1998

3. Electronic Measurements and Instrumentation, Oliver Cage, McGraw Hill ,1975

Reference Books

1. Electronic Instrumentation, H.S. Kalsi, 1st edition, Tata McGraw Hill, 1997.

2. Digital Measurement Technique, T. S. Rathore 2nd

edition, Narosa publication

house2004

3. A course in Electrical & Electronics Measurements & Instrumentation , A.K.

Sawhney, 8th

Edition, Dhanpat Rai & Sons, 2001

ETU604 DIGITAL SIGNAL PROCESSING

Teaching scheme: 03 L + 0T Total: 03 Credit: 03

Marking scheme: 15CT1 + 15CT2 + 10TA + 60 ESE Total Marks:100

Duration of ESE: 2Hrs.30 Min

Recapitulation of Z-transform and Fourier transform

Fourier Analysis: Discrete time Fourier transform (DTFT), discrete Fourier transform

(DFT), DTFT and DFT relationship and their inverses, properties, sampling and

reconstruction of continuous time signal from sequences, fast Fourier transform (FFT),

Decimation in time and frequency, computation of the DFT of real sequences, linear and

circular convolution using DFT, short time Fourier transform, wavelet transform.

Structures of Digital Filters: Filter categories, direct form I, direct form II, cascade and

parallel structure for infinite impulse response (IIR) and finite impulse response (FIR)

filters, analog filter types: Butterworth, elliptic specifications and order, conversion of

analog filter to digital.

Design of Digital Filters: Design steps, FIR filter design techniques: windowing

(rectangular, Blackman, Bartlett, Hamming, etc.), frequency sampling method, pole zero

placements, IIR filter design techniques: approximation of derivatives, impulse invariant,

bilinear, matched Z-transformation.

Introduction to Multirate Digital Signal Processing: Decimation and interpolation,

sampling rate conversion, applications of multirate signal processing, digital filter banks.

DSP Processors Architecture and Applications: Study of DSP chip architecture of

TMS320C20 series microprocessor and its features, comparison with similar analog

devices digital signal processors, instruction set of TMS320C20 and simple programming

examples, its filter applications.

Text Books

1. Digital Signal Processing, J. G. Proakis and D. G. Monolakis, 3rd edition, Pearson

Education, 1996

2. Digital Signal Processing, S. K. Mitra, 3rdedition, Tata McGraw Hill, 1998

3. Introduction to Digital Signal Processing, J. R. Johnson, 2nd edition, Prentice Hall

Education, 1989

Reference Books

1. Digital Signal Processing , A. V. Oppenheim, R. W. Schafer, 3rd edition, McGraw

Hill International, 2006

2. Digital Signal Processing- A practical approach, E. C. Ifeachor, B. W. Jarvis, 2nd

edition, Prentice Hall, 2002

3. Digital Signal Processor: Architecture, Programming and Applications, B.

Venkatramani and M. Bhaskar, 2nd edition Tata McGraw Hill, 2011

4. Digital Signal Processing- A computer based approach, S. K. Mitra, Tata McGraw

Hill, 2002

5. Digital Signal Processing, S. Salivahanan and C. Gnanapriya, 2nd edition, Tata

McGraw Hill, reprint 2011

6. TMS320, Texas Instruments, 1992

ETU605 INDUSTRIAL MANAGEMENT AND OPERATION RESEARCH



ESE Duration: 2 Hrs. 30 min.

Principles and Techniques of Management: Introduction, meaning, nature and

characteristics, scope and functional areas of management, management as a science, art

or profession management and administration: roles of management, levels of

management, development of management thought, early management approaches, and

modern management approaches.

Materials Management: Marketing strategy, market research, consumer behavior,

advertising and sales promotion, channels of distribution, pricing of products; classes of

material, scope of material control, scope of purchasing department, purchasing

procedures, order procedures, inventory control, production planning and control.

Personnel and Financial Management: Recruitment and training, labor turnover,

operator training, suggestion systems; industrial safety: working conditions,

environmental factors, motivation, fatigue, accidents and hazards; evolution of corporate

management, long term financing, equity, preference and debenture capitals, term loans,

dividends and share valuation, short term financing, working capital influencing factors,

cash budgeting, budgets and budgetary control: objectives of budgeting, classification,

ratio analysis.

Introduction to Operation Research (OR): Problem identification, modeling, finding

solution, testing etc., scope and limitations of OR.

Linear Programming (LP): Assumption and formulation of LP model, solution by

graphical method, simplex and two phase simplex method, use of Excel to solve LP

model, dual simplex method and sensitivity analysis, transportation and assignment

models.

Non-Linear Programming: Introduction, types, constrained and unconstrained

optimization method, one variable and multivariable, steepest descent method, quadratic

programming.

Text Books

1. Principles of Management, H. Koontz, O. Donnel C. and Whierich, Tata McGraw Hill

2. Principles of Management, P. C. Tripathi, P. N. Reddy; Tata McGraw Hill

3. Managing for total quality, Logothetics, 3rd

edition Prentice Hall of India

4. Statistical Quality control, Grant and Leavenworth, Tata McGraw-Hill

Reference Books

1. Total Quality Management, by S. M. Mody, D. L. Shah and Trust

2. Industrial Management and Managerial Economics, P. B. Gupta and P. B. Sharma,

Ratnasagar

3. Quality Control Systems, J. R. Taylor, McGraw-Hill

4. Financial Management (6th edition), P. Chandra, Tata McGraw-Hill

ETU606 AUDIO AND VIDEO ENGINEERING LAB






List 1. To study different modules of public address system.

2. Design and test cross-over networks.

3. To study Active tone control circuit.

4. To study CD/DVD Unit

5. To control the operation of different signals using equalizers 6. To study television receiver unit by observing different waveforms.

7. To study LED television Receiver Unit by observing different waveforms

8. To study different Audio video coding technique

Note






ETU607 ELECTRONIC MEASUREMENTS LAB


Evaluation Scheme: 25 ICA Total Marks: 25



List

1. To measure phase and frequency on CRO using Lissajous pattern

2. To study the output of filter using Spectrum analyzer and note down different

parameters

3. To Measure frequency of voltage signal using digital storage oscilloscope

4. To observe the output of microcontroller timing diagram using logic analyzer

5. To measure frequency ratio using Frequency Meter

6. To measure stray capacitance, impedance using Q meter

7. To study audio frequency signal generators

8. Study of recorders

Note


knowledge/skill acquired. The performance shall be assessed experiment wise

using continuous assessment format A and B.

ESE – The End Semester Exam for practical shall be based on performance in

one of the experiments and followed by sample questions.

ETU608 DIGITAL SIGNAL PROCESSING LAB

Teaching Scheme: 02 P Total: 02 Credit: 01

Marking scheme: 25 ICA + 25 ESE Total Marks: 50




List

1. To perform folding, shifting, time scaling operation on discrete time signal

2. Perform autocorrelation and cross correlation on signal

3. Find the output of a given system for given input sequence using linear

convolution.

4. Realisation of unit sample sequence.

5. Find the output of a system described by given difference equation and initial

conditions for given input sequence.

6. To plot the magnitude and phase response of a given system. Also find the

magnitude and phase at a particular frequency.

7. To compute the N point DFT / IDFT of the given complex sequence.

8. To compute the N point circular convolution or linear convolution using circular

convolution of given two sequences.

9. To compute the linear / circular convolution of given two sequences using DFT

and IDFT.

Implement the N-point radix-2 DIT FFT algorithm to find DFT or IDFT of given

sequence.

10. Determine DFT of a given sequence using Goertzel algorithm.

11. Determine the Fourier transform of various window functions. Plot the magnitude

and phase functions.

12. Design an IIR Butterworth filter for given specifications using Bilinear

Transformation.

13. Design an FIR filter from given specifications using windowing methods.

14. To verify that the inter-change of sequence of operations: decimation and

interpolation, on discrete signal do not yield the same result.

15. Implementation of low pass filters using TMS320C20 kit.

16. Debugging Program(s):

a. A syntactically correct program along-with input, output sets could be

given to the students but there is a logical error, students could be asked to

debug the logical error(s).

b. A program could be given to the students along-with input sets and

students are expected to estimate the output and suggest an appropriate

title to the program.

Note

Wherever conceptual, fundamental implementation is concern, use of suitable

programming language should be preferred.






ETU609 CIRCUIT SIMULATION LAB

Teaching Scheme: 02 P Total: 02 Credit: 01

Marking scheme: 25 ICA + 25 ESE Total Marks: 50


Minimum eight experiments shall be performed on simulation of circuits using PSPICE,

MULTISIM. The list given below is just a guideline.

List

1. To design and simulate integrator and differentiator circuit by using Ic741

2. Simulate clipper, clamper circuit and observe the waveform.

3. Design and implement voltage regulator circuit by using IC555/566 .

4. Simulate RC coupled and direct coupled amplifiers using transistor BF141.

5. Realization of multivibrator circuits using BJT and IC555 and trace output

waveform.

6. To design and simulate oscillators

7. To design and simulate single phase rectifiers, inverters.

8. Design and simulate feedback amplifiers by using transistors.

9. To design and simulate frequency response of cascade and cascade amplifiers

10. Design and simulate voltage controlled oscillator and window detector using

op-amp .

Note



continues assessment format A and B.



ETU610 MINI PROJECT




The Mini project is undertaken by a group of 03 students(maximum). The students

are expected to complete work pertaining to following aspects :

Design, fabrication and testing of electronic circuits

Simulation, Learning (in detail ) of an electronic circuit design

Submission of technical report based on the work done.

ETU 611 Self Study - II

Teaching Scheme: 0 L + 0T Total: 00 Credit: 02

Evaluation Scheme: 25 TA Total Marks: 25

ETU611 Self Study- II is based on one class test each on the basis of 20 % curriculum of

the courses ETU601 to ETU604 declared by respective course coordinator at the

beginning of semester. One faculty member shall be appointed as course coordinator for

self study and his/her teaching workload shall be considered one hour/week

ETU612 INDUSTRIAL LECTURE - I

Teaching Scheme: 01 T Total: 01 Credit: 00

Evaluation Scheme: Nil Total Marks: 00

Assessment of ETU612 Industrial Lecture- I is scheduled in VIIth semester with ETU711

Industrial Lecture- II

B.Tech. III- E&Tc 2012-2013 - Government College of Engineering

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