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B.Tech (EC)
w.e.f. Session: 2012-2013
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING
Institute of Engineering & Technology
COURSE STRUCTURE
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
First Semester
S.
NO.CODE SUBJECT
TEACHING SCHEMECREDITS
CONTACT HRS
/WEEKL T P
THEORY
1. AHM101 Mathematics - I 3 1 0 4 42. AHP101 Engineering Physics - I 2 1 0 3 3
3. CSE101Fundamentals of Computer
& Programming2 0 0 2 2
4.MEE102/
EEE101
Basic Thermodynamics/
Electrical Engineering3 1 0 4 4
5.AHC101/
MEE101
Engineering Chemistry/
Manufacturing Process3 1 0 4 4
6.MEE103/
ECE101
Applied
Mechanics/Electronics
Engineering
3 1 0 4 4
PRACTICALS
7. AHE181 Communication Skills - I 0 0 3 2 3
8.MEE182/MEE181
Engineering Drawing/EWSPractice Lab
0 0 3 2 3
9.AHC181/
AHP181Chemistry Lab/Physics Lab 0 0 2 1 2
10. CSE181Computer Programming
Lab0 0 2 1 2
11.MEE183/
EEE181
Applied Mechanics Lab/
Electrical & Electronics Lab0 0 2 1 2
12. ECE197 General Proficiency 0 0 0 1 0
TOTAL 16 5 12 29 33
Second Semester
S.
NO.CODE SUBJECT
TEACHING SCHEMECREDITS
CONTACT HRS
/WEEKL T P
THEORY
1. AHM102 Mathematics - II 3 1 0 4 4
2. AHP102 Engineering Physics - II 2 1 0 3 3
3. CSE102Problem Solving using
Computers2 0 0 2 2
4.EEE101/
MEE102
Electrical Engineering/
Basic Thermodynamics3 1 0 4 4
5.MEE101/
AHC101
Manufacturing Process/
Engineering Chemistry3 1 0 4 4
6. ECE101/MEE103
Electronics Engineering/Applied Mechanics
3 1 0 4 4
PRACTICALS
7. AHE182 Communication Skills - II 0 0 3 2 3
8.MEE181/
MEE182
EWS Practice Lab
/Engineering Drawing0 0 3 2 3
9.AHP181/
AHC181Physics Lab/Chemistry Lab 0 0 2 1 2
10. CSE182 Problem Solving Lab 0 0 2 1 2
11.EEE181/
MEE183
Electrical & Electronics
Lab/Applied Mechanics Lab0 0 2 1 2
12. ECE198 General Proficiency 0 0 0 1 0
TOTAL 16 5 12 29 33
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
Third Semester
S.
NO.CODE SUBJECT
TEACHING SCHEMECREDITS
CONTACT HRS
/WEEKL T P
THEORY
1 AHM 201 Mathematics III 3 1 0 4 42 CEE 201/
AHE 201
Environmental Studies /
Ethics & Values
2 0 0 2 2
3 ECE 201 Electro Magnetic Field
Theory
3 1 0 4 4
4 ECE 202 Digital Electronics 3 1 0 4 4
5 ECE 205 Semiconductor Materials &
Devices
3 1 0 4 4
6 EEE 201 Network Analysis &
Synthesis
3 1 0 4 4
PRACTICALS
1 AHE 281 Soft Skills I 0 0 2 1 2
2 ECE 281 Digital Electronics Lab 0 0 2 1 2
3 ECE 282 Electronics Lab 0 0 2 1 2
4 EEE 281 Network Lab 0 0 2 1 2
5 ECE 297 GP 0 0 0 1 0
TOTAL 27 30
Fourth Semester
S.
NO.CODE SUBJECT
TEACHING SCHEMECREDITS
CONTACT HRS
/WEEKL T P
THEORY
1 AHM 202 CBNST 3 1 0 4 4
2AHE 201/
CEE 201
Ethics & Values/
Environmental Studies2 0 0 2 2
3 ECE 204 Signals & Systems 3 1 0 4 4
4 ECE 203Electronic Devices &
Circuits3 1 0 4 4
5 ECE 208Electronic Measurement &
Instrumentation3 1 0 4 4
6 ECE 206Microprocessors &
Applications3 1 0 4 4
PRACTICALS
1 AHE 282 Soft Skills II 0 0 2 1 2
2 ECE 283 Electronics Workshop & PCBLab 0 0 2 1 2
3ECE 288
Electronic Measurement &
Instrumentation Lab0 0 2 1 2
4 ECE 286 Microprocessor Lab 0 0 2 1 2
5 ECE 298 GP 0 0 0 1 0
TOTAL 27 30
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
Fifth Semester
S.
NO.CODE SUBJECT
TEACHING SCHEMECREDITS
CONTACT HRS
/WEEKL T P
THEORY
1 AHS 301/AHS 302 Industrial Psychology/Industrial Economics 2 0 0 2 2
2 AHE 301/
AHS 303
Technical Writing
/Principle of Management
2 1/0 0 3/2 3/2
3 ECE 301 Communication
Engineering
3 1 0 4 4
4 ECE 302 Linear Integrated Circuit 3 1 0 4 4
5 ECE 303 Antenna & Wave
Propagation
3 1 0 4 4
6 ECE 304 Control System 3 1 0 4 4
PRACTICALS
1 AHE 381 Soft Skills III 0 0 2 1 2
2 ECE 381 Communication Lab 0 0 2 1 2
3 ECE 382 Integrated Circuit Lab 0 0 2 1 2
4 ECE 383 Control System Lab 0 0 2 1 2
5 CSE 389 Advance Programming Lab 0 0 2 1 2
6 ECE 397 GP 0 0 0 1 0
TOTAL 27/26 31/30
Sixth Semester
S.
NO.CODE SUBJECT
TEACHING SCHEMECREDITS
CONTACT HRS
/WEEKL T P
THEORY
1AHS 302/
AHS 301
Industrial Economics/
Industrial Psychology 2 0 0 2 2
2AHS 303/
AHE 301
Principle of Management /
Technical Writing 2 0/1 0 2/3 2/3
3 ECE 305 Digital Communication 3 1 0 4 4
4 CSE 371Computer Architecture and
Application 3 1 0 4 4
5 ECE 306 Microwave Engineering. 3 1 0 4 4
6 ECE 307 VLSI Technology & Design 3 1 0 4 4
PRACTICALS
1 AHE 382 Soft Skills IV 0 0 2 1 2
2 ECE 384 Digital Communication Lab 0 0 2 1 23 ECE 385 Simulation Lab 0 0 2 1 2
4 ECE 386 Microwave Lab 0 0 2 1 2
5 ECE 387 CAD Lab 0 0 2 1 2
6 ECE 388 Colloquium 0 0 2 1 2
7 ECE 398 GP 0 0 0 1 0
TOTAL 27/28 32/33
Note: At the end of sixth semester, each student has to undergo an industrial training of minimum
04 weeks, which will be evaluated as ECE 483 in the seventh semester.
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
Seventh Semester
S.
NO.
CODE SUBJECT TEACHING SCHEME CREDITS CONTACT HRS
/WEEKL T P
THEORY
1 ECE 401 Data Networks 3 1 0 4 42 ECE 402 Digital Signal Processing 3 1 0 4 4
3 Elective-I 3 1 0 4 4
4 Elective-II 3 1 0 4 4
5 Open Elective 3 1 0 4 4
PRACTICALS
1 ECE 481 Digital Signal Processing Lab 0 0 2 1 2
2 ECE 482 Project-I 0 0 6 3 6
3 ECE 483 Industrial Training 0 0 2 1 2
4 ECE 497 GP 0 0 0 1 0
TOTAL 26 30
Eight Semester
S.
NO.CODE SUBJECT
TEACHING SCHEMECREDITS
CONTACT HRS
/WEEKL T P
THEORY
1 ECE 403 Optical Communication &
Networks
3 1 0 4 4
2 ECE 404 Wireless Communication 3 1 0 4 4
3 Elective-III 3 1 0 4 4
4 Elective-IV 3 1 0 4 4
PRACTICALS
5 ECE 484 Optical Communication Lab 0 0 2 1 2
6 ECE 485 Wireless Communication
Lab
0 0 2 1 2
7 ECE 486 Project-II 0 0 14 7 14
8 ECE 498 GP 0 0 0 1 0
26 34
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
Subject Code Elective-I
ECE 406 Artificial Neural Network
ECE 407 TV & Satellite Communication
ECE 408 Radar Engineering
Subject Code Elective-II
ECE 409 Tele-communication Switching
ECE 410 Multimedia Communication
ECE 411 Mobile Computing
Subject Code Elective-III
ECE 413 Digital System Design
ECE 414 MEMS
ECE 415 Embedded Systems
Subject Code Elective-IV
ECE 416 Speech Processing
ECE 417 Multi Carrier Communication
ECE 418 Digital Image Processing
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
DDDEEETTTAAAIIILLLEEEDDDSSSYYYLLLLLLAAABBBUUUSSS
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
AAHHMM110011::MMAATTHHEEMMAATTIICCSSII
Module
No.Content
Teaching
Hours
I
Differential Calculus: Successive Differentiation, Leibnitz theorem, Partial
Differentiation, Eulers theorem on homogeneous functions, Differentiation of
Composite and implicit functions, Total derivatives, Leibnitz rule of
differentiation under the integral sign, Jacobian, Extreme of functions of several
variables, Lagranges method ofUndetermined multipliers.
14
II
Ordinary Differential Equations: Introduction, variables separable & linear
form of I order and I degree ODEs, Linear differential equations of nthorder
with constant coefficients, Euler Cauchy Equations, Simultaneous linear
differential equations. Method of variation of parameters, Applications to
Engineering problems.
14
III
Matrices: Inverse of matrix by elementary transformations, Rank of matrix,
Solution of systems of linear equations, Linear dependence and independence,
Complex matrices, Eigen values and eigen vectors, Cayley Hamilton Theorem,
Diagonalization by similarity transformation.
11
References:
Behrouz A. Forouzan and Richard F. Gilberg , Computer Science A structured Programming
Approach Using C, Cengage Learning, 2007.
K. N. King, C Programming - A Modern Approach, 2nd Edition, W. W. Norton, 2008.
Kernighan and Ritche, The C programming Language, PHI , 1996.
P. Dey, M. Ghosh, Programming in C, Oxford University Press ,2009 .
Credits: 04 LTP: 310Semester I
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
AAHHPP110011::EENNGGIINNEEEERRIINNGGPPHHYYSSIICCSS--II
Module
No.Content
Teaching
Hours
I
1. Relativistic Mechanics: Basic Concepts, Inertial & non-inertial frames,
Galilean Transformations, Michelson- Morley experiment, Einsteins postulates,
Lorentz transformation equations, Length contraction, Time dilation, Addition
of velocities, Variation of mass with velocity, Mass energy equivalence.
2. Solid State Physics : Bands in solids, Insulators, conductors and
semiconductors, electron and hole conduction, the band structure of
semiconductors, Donor and acceptor impurities, Fermi level and Fermi energy,
impurity level in N and P type semiconductors, p-n junction fabrication, effective
mass, electron and hole concentration at equilibrium, temperature dependence
of carrier concentration, conductivity and mobility, Hall effect insemiconductors.
10
II
1. Interference: Light Fundamentals, Interference of light, Principle of
superposition and coherence of light, Interference due to division of wavefront
and division of amplitude, Theory of biprism experiment, Interference in
parallel thin films, wedge shaped films, Newtons rings and MichelsonsInterferometer.
2. Diffraction: Diffraction of light, Fresnel and Fraunhofer diffraction,
diffraction due to single slit and N-slits, Plane diffraction grating, absent spectra
with grating and dispersive power of grating, Rayleighs criterion and resolving
power of grating and application.
10
III
1. Polarization: Introduction to polarization fundamentals, Phenomenon of
double refraction, Nicol prism, Production and analysis of plane, circularly and
elliptically polarized light, Quarter and half wave plates, Fresnels theory ofoptical activity, Specific rotation, Lorentz half shade and Biquartz polarimeters.
2. Laser: Spontaneous and stimulated emission of radiation, Einsteinscoefficients, Principle of laser, Ruby laser, Semiconductor laser, coherence,
characteristics of laser beam and coherence property, laser applications.
3. FiberOptics:Introduction, Principle of optical fiber, Classification of fibers,
acceptance angle and acceptance cone, Numerical aperture, Propagation
mechanism and attenuation in optical fiber.
10
References:
Aurthur Beiser, Concepts of Modern Physics, TMH. Robert Resnick , Introduction to Special theory of relativity, Wiely & Sons
Ajoy Ghatak , Optics, TMH
Brijlal and Subramaniam , Optics, S. Chand
Anuradha De. , Optical Fibre & Laser, New Age
Resnick, Halliday and Walker , Fundamental of Physics, Wiely
S.O. Pillai , Solid State Physics, New Age International Publication , 5thedition
C. Kittel : Solid State Physics, Wiley Eastern, 7thedition.
M.A.Wahab : Solid State Physics, Narosa Publication
Credits: 03 LTP: 210Semester I
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
CCSSEE110011::FFUUNNDDAAMMEENNTTAALLSSOOFFCCOOMMPPUUTTEERRSS&&PPRROOGGRRAAMMMMIINNGG
Module
No.Content
Teaching
Hours
I
Introduction: Digital & Analog Computers, Major components of a digital
computer, Word length, processing speed, Computer classification, Batch
processing, Multiprogramming & Multi user systems, Computer network.
Number System: Binary number system, Conversion from binary number to
decimal & vice versa, Addition & subtraction of binary numbers, Use of
complements to represent negative numbers, Binary Fraction to decimal
fraction & vice versa, Hexadecimal and Octal number systems. Decimal, Binary,
Octal, Hexadecimal numbers and their inter-conversions; Representation of
information inside the computers. Integer representation, Signed 1's and signed
2's complement representation, Floating point representation.
Introduction to Programming: Programming languages: Generations oflanguages, machine level, assembly and high level languages, compiler,
assembler, interpreter, Programming fundamentals, Algorithm and flow charts .
7
II
Introduction to the C Language: Structure of a C program; Standard Input-
Output in C, Data Types ,Storage classes. Operators and Expressions, Type
conversion, .Non-formatted Input and Output and Formatted Input and Output
functions.
Control Statements: Conditional Operator, The switch statement, while
Construct, Looping or iteration using for loop, do-while construct, goto
statement, special control statements, Nested loops.
7
III
Array: Representation of Single and Multidimensional Arrays, Address
calculation, Operations on arrays, Application of arrays.
Functions:Function Declaration and definition, call by value and by reference,
Scope Rules, Types: User defined and system defined, passing array to functions.
7
References:
Behrouz A. Forouzan and Richard F. Gilberg : Computer Science A structured Programming
Approach Using C,C Language Learning ,2007
K. N. King: C Programming A Modern Approach, W. W. Norton, 2ndEdition, 2008.
Kernighan and Ritche:The C programming Language , PHI , 2nd edition, 2011
P. Dey and M. Ghosh:Programming in C, Oxford University Press 1st Edition , 2000
Credits: 02 LTP: 200Semester I
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
EEEEEE110011::EELLEECCTTRRIICCAALLEENNGGIINNEEEERRIINNGG
Module
No.
Content Teaching
Hours
I
1. D C Circuit Analysis and Network Theorems:
Circuit Concepts, Active and passive elements, Electrical energy sources, linear
& non-linear network, unilateral and bilateral elements, source transformation.
Kirchhoffs laws, loop and nodal methods of analysis, star-delta transformation,
Network Theorems: Superposition Theorem, Thevenins Theorem, NortonsTheorem, Maximum Power Transfer Theorem.
2. Steady- State Analysis of Single Phase AC Circuits:
AC Fundamentals: waveforms or wave shapes, average and effective values,
form and peak factors, concept of phasor, phasor algebra & phasor
representation. Analysis of series, parallel and series-parallel RLC Circuits:
complex power, power triangle, power factor, introduction to resonance in
series and parallel circuits (numerical problems).
13
II
1. Three Phase AC Circuits & Measuring Instruments:Generation & advantages of three phase system, phase sequence, star and delta
connections, balanced supply and balanced load, line and phase voltage/current
relations, three-phase power and its measurement (simple numerical
problems). Classification of instruments, construction and working principles of
PMMC and MI type instruments and their range extension, single phase
dynamometer wattmeter and induction type energy meter.
2. Magnetic Circuit & Single Phase Transformer
Analogy between electric & magnetic circuits, magnetic leakage & fringing, B-H
curve, hysteresis and eddy current losses, concept of mutual and self induction
Principle of operation, construction, e .m. f. equation, equivalent circuit, power
losses, efficiency, introduction to auto transformer
13
III
Introduction to electro mechanical energy conversion, DC machines:
Construction & working principle, types, e.m.f. equation and torque equation,
applications of dc motors.
Three Phase Induction Motor: Construction & working principle, types, Principle
of operation, Concept of slip, applications. Single Phase Induction motor:
Principle of operation and introduction to methods of starting, applications.
Three Phase Synchronous Machines: Principle of operation of alternator and
synchronous motor and their applications.
2. Introduction to Power Generation & Power System:
Introduction to generation of Electrical Power (conventional and non-
conventional sources), Introduction to Wind energy and solar energy, layout of
thermal & hydro power plant, General layout of electrical power system and
functions of its elements, standard transmission and distribution voltages,
concept of grid (elementary treatment only)
14
References:
V. Del Toro , Principles of Electrical Engineering, Prentice Hall International
I.J. Nagarath , Basic Electrical Engineering,TMH
D.E. Fitzgerald and A. Grabel Higginbotham, Basic Electrical Engineering, TMH
T.K. Nagsarkar and M.S. Sukhija, Basic Electrical Engineering, Oxford University Press.
H. Cotton , Advanced Electrical Technology , Wheeler Publishing
W.H. Hayt and J.E. Kennely, Engineering Circuit Analysis, TMH.
S.N.Singh, Electrical power generation, transmission & distribution , Eastern Economy
Edition.
Credits: 04 LTP: 310Semester I
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
MMEEEE110011::MMAANNUUFFAACCTTUURRIINNGGPPRROOCCEESSSS
Module
No.
ContentTeaching
Hours
I
Engineering materials, composition, properties and their applications:
Materials composition, mechanical properties & their applications of
engineering materials-plane carbon steel, alloy steel-tool steel and stainless
steel, various non ferrous metals and alloys e.g. Cu alloy-brass, bronze, , Al alloy-
Duralumin.
Introduction to Rubber, Plastics, Composite materials and their applications.
Machining Processes: Working principles and applications of machining
processes-Lathe Machine, Drilling Machine and Grinding Machine, various tools
used in the operations of these machines.
14
II
Metal Forming Processes: Introduction to Hot & Cold working processes, eg.
Forging, Rolling, Extrusion and Drawing.
Casting Processes: Introduction to various patterns and their allowances.
Molding sand and their properties, preparation of sand moulds, basic conceptsof core, gating, runner & riser system, defects in sand casting & their remedies.
17
III
Fabrication processes: Basic concept of Welding and its classification /
operations. Introduction to Arc welding & Gas welding, types of flames.
Introduction to Soldering, Brazing and their applications.
Advanced Machining Processes: Introduction to advanced machining
processes: Ultrasonic machining, Electrochemical machining, Electric Discharge
machining, Laser Beam machining and their applications.
17
References:
Chapman WAJ, Workshop Technology, Part 1-3, Viva Books Pvt. Ltd. New Delhi.
Hajra Chowdhary SK and Hajra Chowdhary AK, Workshop Technology, Media Promotors &
Publishers.
Raghuwanshi RS, Workshop Technology, Dhanpat Rai and Sons, New Delhi.
Lindberg RA, Process and Materials of Manufacturing, PHI, New Delhi
Jain RK, Production Technology, Khanna Publishers, New Delhi.
Richard L and Little, Welding and Welding Technology, TMH, New Delhi.
Taylor HF, Flemming, Merton C and Wulff J, Foundry Engineering, Wiley Eastern Limited, New
Delhi.
Richard WH, Casl RL, Jr. and Philip C. Rosenthal, Principles of Metal Casting, TMH, New Delhi.
Jain V.K.,Advanced Machining Processes, Allied Publishers, New Delhi.
Jain K.C. and Chitale A.K., Text book of Production Engineering, PHI , New Delhi.
Credits: 04 LTP: 310Semester I
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
EECCEE110011::EELLEECCTTRROONNIICCSSEENNGGIINNEEEERRIINNGG
Module
No.
ContentsTeaching
Hours
I
Transport phenomenon in semiconductors:
Semiconductor materials; Intrinsic and Extrinsic semiconductors; Mass-action
law, Drift and diffusion of charge carriers.
Junction diodes:
p-n junction diode: construction, operation & characteristics; Zener and
Avalanche breakdown mechanisms; Diode resistance and capacitance; Photo-
diode and LED.
Diode applications:
Rectifiers: half wave, full wave centre-tapped and bridge type.; Filters; Clippers;
Clampers; Voltage multipliers; Zener diode as voltage regulator; Regulated power
supply.
14
II
Bipolar Junction Transistor (BJT):Bipolar junction transistor: construction & operation; CB ,CE, CC configurations &
their Characteristics; Operating point; Transistor as a switch; Need of biasing;
Biasing methods: fixed bias, emitter bias, potential divider bias, voltage feedback
bias; Bias stabilization; Stability factor; h-parameters; Small signal analysis of BJT
amplifier.
Field Effect Transistor (FET):
Construction, operation & characteristics of JFET; Shockleys equation; Depletion
& Enhancement type MOSFET; Biasing of JFET:-fixed bias, self bias and voltage
divider bias; Biasing of depletion type & enhancement type MOSFET.
14
III
Digital Electronics:
Number systems; Binary Addition & Subtraction; 1s and 2s complement ,
Subtraction using 2s complement; Boolean algebra; Logic gates; Implementation
of basic gates using universal gates; Realization of Boolean functions using basic
& universal gates; Canonical forms(SOP & POS); Simplification of Boolean
functions using Boolean postulates & K-map up to 4 varia bles with dont carecondition; Basic concept of latch.
Operational Amplifier (Op-Amp):
Operational amplifier: Block diagram, ideal and practical Op-Amp characteristics;
Inverting, non-inverting and differential configurations (open loop and closed
loop); Applications of Op-Amp as buffer, adder, subtractor, integrator and
differentiator.
13
References:
Robert L. Boylestad and Louis nashelsky , Electronic devices and circuit theory , Pearson
Education/PHI, New Delhi.
Morris Mano , Digital design, Pearson Education.
R.A. Gayakwad , Op-amps & linear Integrated circuits, PHI.
R.J. Smith and R.C. Dorf , Circuits, Devices and System, Willey , 5th edition.
Jacob Millman and Christos C. Halkias , Integrated Electronics, TMH , New Delhi.
H.S. Kalsi : Electronic Instrumentation, TMH , New Delhi.
Credits: 04 LTP: 310Semester I
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
AAHHEE118811::CCOOMMMMUUNNIICCAATTIIOONNSSKKIILLLLII
Module
No.
ContentTeaching
Hours
I
1. Hurdles of the Path and Route Map
Language Drills :
Singular & Plural, countable & uncountable, Parts of speech, Tense-shift
Routine Expressions :
Greeting, Introducing yourself and others, Query formal/ Informal, Replies
Positive, Neutral and Negative, Expressing surprise, regret, apology, seeking
information.
Tenses through simple presentations :
For Example:
Present : Introduction, Routine, My City, My Value System etc.
Past : Describing events marriage party, picnic, conference etc.
Experience, Process, Movie etc.
Future : Goal of my life, India of my dreams etc.We will have to return to our roots
Cloning will make us immortal
Technological Advancement : Man is on the verge of becoming Machine/God.
2.
Virtual Speaking
Extempore : 1 minute description of objects in the room.
Picture Description :
Flow of the idea, organization of the message.
Crowded Pictures
Abstract Pictures
Open ended relationship based:(i) Mother(in Business suit) rushing outside while child is
crying, goods in home are scattered
(ii) Sibling Fight
(iii) Joint family having fun
Bars, Pie-charts, Tables
Cook a Story : Ways of developing paragraph in prose
Jumbled Pictures
One Person One Sentence
Tie up the loose threads
3.
Rapid Vocabulary & its Usage:
Roots & word formation, commonly misused words, words with shades of
meaning, Phrasal Verbs, Terms used as Noun & Verb, Noun & Adjectives.
4. Speak Well
Ambiguity in conversation/ comment, Reason & ways to root it out, commonly
mispronounced words Phonetic symbols / Pronunciation Drills
5.
Comprehension and Conversation
Listening: Active & Passive listening; listening with Empathy, Listening
Comprehension
Reading Comprehension (pre-discussion and post discussion)
(From Everyday English Pg. 99 103)Telephonic Conversation :
Greetings, putting the phone on hold, inquiry about the caller.
Simple Role Play
Credits: 2 LTP: 0-0-3Semester I
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
MMEEEE118811::EEWWSSPPRRAACCTTIICCEELLAABB
Module
No.
ContentTeaching
Hours
I
Machine Shop
1. To make a step turning job from mild steel round bar as per drawing.
2. To make a job for taper turning, grooving & threading from mild steel round
bar as per drawing.
3. Study of practices on Shaper.
4. Demonstration of CNC Lathe operation.
5. Demonstration of Milling Machine operation
Sheet Metal Shop
6. To make a rectangular tray as per drawing
7. To make a funnel with soldering
Carpentry Shop
8. To make a flat wooden block by using jack plane as per drawing.
9. To make a half lap corner joint as per drawing.10. To make a wooden round block by using wood working lathe.
Welding Shop
11. To prepare a Butt-joint by electric arc welding.
12. To prepare a Lap-joint by electric arc welding.
13. To prepare a joint by gas welding.
Fitting Shop
14. To make a rectangular M.S. flat job as per drawing.
15. To make a simple and tapped hole in M.S. plate as per drawing.
16. To make a male-female joint as per drawing.
Black-smithy Shop
17. To make a nail as per sketch.
Foundry Shop
18. To make a pattern from wood for a hollow cylinder as per drawing.
19. To make a casting using a core as per given pattern.
Credits: 02 LTP: 003Semester I
-
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16/61
B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
AAHHPP118811::PPHHYYSSIICCSSLLAABB
Module
No.
ContentTeaching
Hours
I
1. To determine the wavelength of monochromatic light by Newtons rings.
2. To determine the wavelength of monochromatic light with the help of
Fresnels biprism.
3. To determine the focal length of two lenses by nodal slide and to locate the
position of cardinal points.
4. To determine the specific rotation of cane sugar solution using polarimeter.
5. To determine the wavelength of spectral lines using plane transmission
/diffraction grating.
6.Measurement of wavelength of laser (He- Ne) light using single slit
diffraction.
7. To determine the specific resistance of the material of a given wire usingCarey Fosters bridge.
8. To study the variation of magnetic field along the axis of current carrying
circular coil and then to estimate the radius of the coil.
9. To calibrate the given ammeter and voltmeter by potentiometer.
10. To study the Hall effect and determine Hall coefficient, carrier density and
mobility of a given semiconductor.
11. To determine the energy band gap of a given semiconductor material.
12 To determine E.C.E. of copper using Tangent or Helmholtz galvanometer.
13. To draw hysteresis curve of a given sample of ferromagnetic material and
then to determine the magnetic susceptibility and permeability of the given
specimen.14. To determine the ballistic constant of a ballistic galvanometer.
15. Measurement of fiber attenuation and aperture of optical fiber.
16. To determine high resistance by leakage method.
Credits: 01 LTP: 002Semester I
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
CCSSEE118811::CCOOMMPPUUTTEERRPPRROOGGRRAAMMMMIINNGGLLAABB
Module
No.
ContentTeaching
Hours
I
(1) Arithmetic operations
a. WAP to perform arithmetic operation over the variables.
b. WAP to calculate area of the circle.
c. WAP to find the sum of digits of a number.
d. WAP to find the reverse of a string..
e. WAP to implement perimeter of a rectangle
(2) Function
a. WAP to call a function by reference.
b. WAP to call a function by value.
c. WAP to calculate factorial of a number.
d. WAP to print a table of a user define number.
e. WAP to generate Fibonacci Series
(3) Pointer
a. WAP to display the contents of 2D array using pointer.
b. WAP to sort an array in ascending order using dynamic
memory allocation and pointers.
(4) Microsoft office
a. MS Word Introduction.
b. MS Excel Introduction
c. MS PowerPoint Introduction.
d. MS Paint brush Introduction.
(5) pattern
a.
WAP to design the following pattern
* * * * * * * * * *
* * * * * * * *
* * * * * *
* * * *
* *
24
Credits: 01 LTP: 002Semester I
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
EEEEEE118811::EELLEECCTTRRIICCAALL&&EELLEECCTTRROONNIICCSSLLAABB
Module
No.Content
Teaching
Hours
I
1. To verify the Thevenins theorem (DC circuits).
2. To verify the maximum power transfer theorem (DC circuits). Also draw
graph between power and load resistance.
3. To verify the Superposition Theorem (DC circuits).
4. To study the phenomenon of resonance in R-L-C series circuit and to draw
graph between frequency and current. Also show half power points.
5. To determine the V-I characteristics of a semiconductor diode. Also
calculate forward and reverse static and dynamic resistances.
6. To study the half wave and full wave (center tapped) rectifier with and
without filter. Also to calculate the ripple factor in both cases (without
filter).
7. To study single phase (induction type) energy meter.
8. To study various logic gates such as OR, AND, NOT, NAND, NOR.
9. Study of CRO and measurement of voltage and frequency using CRO.
10.V-I characteristics of Zener diode.
11.Identification of active and passive components.
12.V-I characteristics of bipolar junction transistor in common base mode.
Credits: 01 LTP: 002Semester I
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
AAHHMM110022::MMAATTHHEEMMAATTIICCSS--IIII
Module
No.
ContentTeaching
Hours
I
Multiple Integrals: Double and Triple Integrals, Change of order of
integration, Change of variables, Beta and Gamma functions. Applications to
Dirichlet integrals.
Vector Calculus: Gradient, Divergence and curl ; their geometrical and
physical significance, Vector Identities, Line, surface and volume integrals,
Independence of path, Green, Gauss divergence and Stokes theorem (withoutproof).
15
II
Partial Differential Equations : Solution of I order Lagranges linear PDEs,Linear PDEs with constant coefficients, Classification of II order PDEs, Method
of separation of variables, One dimensional wave equation, DAlemberts
solution, Heat conduction equations up to two dimensions.
11
III
Laplace Transform: Properties of Laplace transform, Existence theorem,
Laplace transform of derivatives and integrals, Unit step and Dirac deltafunction, periodic functions, Partial Fractions, Properties of inverse Laplace
transform, convolution theorem. Application to ODEs and integral equations.
13
References:
E. Kreyszig ,Advanced Engg. Mathematics, John Wiley & Sons, 9thEdition.
Peter V.ONeil,Advanced Engg. Mathematics, Thomson Learning .
M.D.Greenberg , Advanced Engineering Mathematics, Pearson Education Inc.
Bali & Goyal , A Text Book of Engg. Mathematics, Infinity Science Press, U.S.A.
Allen Jeffrey ,Advanced Engineering Mathematics, Academic Press, Elseveir .
B.V.Ramanna , Higher Engg. Mathematics, TMH, New Delhi.
Credits: 04 LTP: 310Semester II
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
AAHHPP110022::EENNGGIINNEEEERRIINNGGPPHHYYSSIICCSSIIII
Module
No.Content
Teaching
Hours
I
1. Wave Mechanics: Wave model, Wave- particle duality, Photoelectric effect,
de-Broglie hypothesis, Phase and group velocities: wavepacket, Heisenbergsuncertainty principle and its applications, Wave function and its normalisation,
Schrdingers wave equation : time dependent and time independent wave
equations, particle in one dimensional potential box.
2. X-ray Diffraction: Diffraction of X-rays by crystal planes, Braggs law, Braggs
spectrometer, Comptons effect.
10
II
1. Superconductivity: Temperature dependence of resistivity in
superconducting materials, Meissner effect, Type I and Type II superconductors,
Temperature dependence of critical field, BCS theory (qualitative), Londons
equation, Landon penetration depth, Properties and applications of
superconductors.
2. Science and Technology of Nanomaterials:Basic principle of nanoscienceand nanotechnology, Nanomaterials, creation and uses of Buckyballs. structure,
properties and uses of carbon nano-tubes (CNT), Tools to make nano-structures,
Applications of nanotechnology.
8
III
1. Electromagnetics : Inconsistency in Amperes law, Displacement current,
Equation of continuity, Maxwells equations (Integral and Differential forms),
Propagation of E-M waves in free space and in conducting media, Poynting
theorem and Poynting vector.
2. Electric Field in Matter: Dielectric materials, Dielectric polarization,
Dielectric constant, Types of Polarization, Polarizability, Clausius- Mosotti
equation, Ferro and Piezo electricity (qualitative), Dielectric losses, Applications
of dielectric materials.
3. Magnetic Field in Matter: Magnetisation, dia, para and ferromagnetism,Langevins theory for dia and para-magnetic materials, Phenomenon ofhysteresis and its applications.
12
References:
Beiser , Concept of Modern Physics, TMH , New Delhi.
C. Kittel , Solid State Physics, Wiley Eastern, 7th edition
V. Raghavan , Materials Science and Engineering, PHI , New Delhi.
S.O. Pillai , Solid State Physics, New Age International Publication, 5th edition.
Rechard Booker and Earl Boysen, Nanotechnology, Wiley International.
David J. Griffith, Introduction to Electrodynamics, PHI, New Delhi
C.S.Liu and V.K.Tripathi , Electromagnetic Theory for Telecommunications, Cambridge
University press India.
Credits: 03 LTP: 210Semester II
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
CCSSEE110022::PPRROOBBLLEEMMSSOOLLVVIINNGGUUSSIINNGGCCOOMMPPUUTTEERRSS
Module
No.
ContentTeaching
Hours
I
Recursion: Mechanics of a recursive call, How recursion is implemented,
definition of recursion, Key concepts. Comparing recursion and iteration.
Structures: Declaration, initialization of. Structure, Nested structures, user
defined data types, Enumerated data types, Unions. Difference between
structure and Union.
7
II
Pointers: Introduction, Pointer variables, pointer and arrays, array of pointers,
pointers and structures, dynamic allocation.
Strings: Introduction, Declaring & Initializing string variables, String
Input/output Functions, String Manipulation Functions.
File handling in C: Data and information, File concepts, File organization, Files
in C, Files and streams, stream I/O, Sequential and Direct File organization.
Problems based on Files.
7
III
Introduction Stack, Queue & Linked List: Array Representation andImplementation, Insertion, Deletion. Empty, Underflow.
Declarations: Storage Classes- Auto, Static, Extern, Register etc.
Low Level Programming such as Bit-level
Writing Large Programs: A simple file Program, Program by using two
Source Files, Program based on separate compilation of functions.
7
References:
Behrouz A. Forouzan and Richard F. Gilberg, Computer Science A structured Programming
Approach Using C , C Languages Learning, 2007.
K. N. King and W. W. Norton , C Programming A Modern Approach , 2nd Edition, 2008. Kernighan and Ritchie,The C programming Language , PHI , 1996.
P. Dey, and M. Ghosh, Programming in C, Oxford University Press ,2009 .
Credits: 02 LTP: 200Semester II
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
MMEEEE110022::BBAASSIICCTTHHEERRMMOODDYYNNAAMMIICCSS
Module
No.
ContentTeaching
Hours
I
Basic Concepts
Thermodynamic systems, State & properties, Macroscopic & microscopic point
of view. Thermodynamic equilibrium & processes, Zeroth law of
thermodynamics, Temperature scales, Work & heat.
First Law of Thermodynamics
First law of thermodynamics, Energy equations for closed systems and open
systems under steady flow conditions, Application of first law to various
thermodynamic systems such as boiler, turbine compressor, nozzle, pump etc.
13
II
Second Law of Thermodynamics
Limitations of the first Law of thermodynamics, Concept of heat engine, Heat
pump & refrigerator, Second Law of Thermodynamics, Carnot cycle, Theorems
and Corollaries, Clausius Inequality, Concept of entropy, Principle of increase ofentropy of universe, Entropy change during various processes, Concept of
Third Law of Thermodynamics.
Properties of Steam or pure substance
Definition of pure substance, Phase change, p-T diagram and pV-T surfaces,
Formation of Steam, Classification of steam generators, Construction and
working of boilers, Concept and determination of dryness fraction of steam,
Thermodynamic properties of steam, Steam table and Mollier diagram, Various
thermodynamic processes with steam as a working medium.
Rankine cycle, layout and working of steam power plant
14
III
Gas power cycle and IC engine
Air standard cycles and efficiency, Otto cycle, Diesel cycle, Concept &
classification of IC engines, Construction and working of two stroke and four
stroke engines, SI and CI engines.
Refrigeration & Air Conditioning
Elementary concept of Refrigeration & Air conditioning, Working principle and
schematic diagrams of refrigerators, air coolers, air conditioners and ice plants,
Vapour compression cycles.
13
References:
Van Wylen G.J. and Sonnlog R.E. , Fundamentals of classical thermodynamics, John Wiley &
Sons, Inc. NY.
Wark Wenneth , Thermodynamics, Mc Graw Hill book Co. NY. Holman, J.P. , Thermodynamics, MC Graw Hill book Co. NY.
Rogers G and Mayhew Y , Engineering Thermodynamics, Pearson Education.
Jones J B and Hawkins J A , Engineering Thermodynamics, John Wiley and Sons.
Joel R. , Basic Engineering Thermodynamics, Addison Wesley.
Nag P. K. , Engineering Thermodynamics, TMH , India
Yadav R. , Thermodynamics and Heat Engines, Central Publishing House Allahabad, Vol I, 2nd
Edition.
Ballaney P.L. , Thermal Engineering, Khanna Publisher.
Arora C.P. , Engineering Thermodynamics, TMH, New Delhi.
Credits: 04 LTP: 310Semester II
-
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23/61
B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
AAHHCC110011::EENNGGIINNEEEERRIINNGGCCHHEEMMIISSTTRRYY
ModuleNo.
Content TeachingHours
I
Chemical kinetics: Order and molecularity of reactions, Zero order, first order
and second order reactions. Integrated rate equations. Theories of reaction
rates, Factors affecting rate of reaction.
Solid State: (1 lect): Types of unit cell, space lattice (only cubes), Calculation of
density of the unit cell, number of atoms per unit cell,
Chemical Bonding: M.O. theory and its applications in homo & hetero
diatomic molecules. Hydrogen bond, metallic bond and their applications.Semi-
conductor
Organic Name Reactions and Stereochemistry.
Name reactions ie.Aldol Condensation,Cannizaro reaction, Types of isomerism
(optical & geometrical), Chirality, Element of symmetry, Diastereomers,
Optically active Compounds, R-S configuration and E-Z geometrical isomers,Conformation of ethane, n-butane
Non Conventional Energy Source: Introduction to Solar energy, Biomass and
biogas.
14
II
Introduction, Definition and Explanation of the terms: phase, component and
degree of freedom, Application of phase rule to one component system (water
& CO2system), pH, buffer solution (Henderson equation).
Polymers: Polymerization and its classification. Thermoplastic and
Thermosetting resins. Properties of Polymers, Molecular weights of
Polymers,Elastomers. Organic conducting and biodegradable polymers
(PMMA, polystyrene, Teflon, neoprene, Buna-S, Buna-N Nylon 6, Nylon 66,
Terylene, PLA, poly hydroxy butyrate), vulcanization of rubber.
Water Treatment: Introduction, Hardness and its units, , L-S Process, Calgonprocess, Zeolite and Ion-exchange resins, Treatment of Municipal Water,
reverse Osmosis, Impurities in water, Characterstics of water, Treatment
process Includes above deleted portions, boiler feed water, boiler troubles and
remedial measures
Lubrication: Introduction to lubrication, Classification, Properties & uses.
17
III
Corrosion: Introduction, Consequences, Types, Theories of Corrosion,
(galvanic, pitting, stress, water line, intergranular & soil corrosion) and
Protection of Corrosion. Electrochemical cell, Concentration cell.
Spectroscopy: Elementary ideas and simple applications of UV, visible, infra-
red and NMR spectral techniques
Fuels: Classification of fuels. Analysis of coal, determination of calorific values,
Synthetic petrol Glass: Preparation, varieties & uses.
Ceramics: Introduction, Classification, scope & application.
17
References:
Morrison Boyd , Organic Chemistry
I.L. Finar , Organic Chemistry
Y R Sharma , Elementary Organic Spectroscopy
S. S. Dara , Text Book of Engg Chemistry
Shashi Chawla , Engg Chemistry
K M Mittal , Non Conventional Energy System
Mars G Fontana , Corrosion Engg
Attkins & others , Inorganic chemistry
Attkins & others , Physical Chemistry
Puri, Sharma and Pathania : Physical Chemistry
Laidler , Chemical Kinetics
Credits: 04 LTP: 310Semester II
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
MMEEEE110033::AAPPPPLLIIEEDDMMEECCHHAANNIICCSS
Module
No.Content
Teaching
Hours
I
Introduction: Engineering Mechanics, Idealization of Bodies, concept of Rigid
Body, External Forces (Body forces & surface forces), Laws of Mechanics.
Force systems and Equilibrium: Concurrent forces in a plane, Parallel forces
in a plane, Free Body Diagram, Equation of equilibrium and their applications to
various systems of forces.
Friction: Introduction to friction, Dry friction, Laws of friction and its
application to wedge, ladder, screw, rolling friction, belt-pulley system.
14
II
Distributed Forces And Moment Of Inertia: Centroid of Composite figures,
Area Moment of Inertia, Polar Moment of Inertia, Parallel axes theorem,
Perpendicular axes theorem, Principle Moment of Inertia, Mass Moment of
Inertia of circular ring, disc, cylinder, sphere and cone about their axis of
symmetry.Beams: Different support & load conditions, Shear Force and Bending Moment
Diagram.
Analysis Of Plane Trusses: Engineering structures, Perfect Truss,
Determination of axial forces in the members, Method of Joints, Method of
Section.
17
III
Kinematics Of Rigid Body: Plain motion of rigid body, Velocity and
acceleration under translation and rotational motion, Absolute motion, Relative
motion.
Kinetics Of Rigid Body: Force, Mass and Acceleration, Work, Power and
Energy, Impulse and Momentum, DAlemberts Principle and dynamicequilibrium.
Principle Of Virtual Work: Principle and application of Virtual work, Stability
of equilibrium.
17
References:
I.H. Shames , Engineering Mechanics, PHI., New Delhi.
F.P. Beer and E.R. Johnston , Mechanics for Engineers (Statics and Dynamics),TMH New
Delhi.
Dr. A.K. Tayal , Engineering Mechanics Statics & Dynamics, Umesh Publications, Delhi.
V.S. Mokashi , Engineering Mechanics Statics Vol.I & Dynamics Vol-II, TMH.
J.L. Marriam and L.G. Kraig , Engineering Mechanics Statics & Dynamics, John Wiley &
Sons Ltd.
Credits: 04 LTP: 310Semester II
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
AAHHEE118822::CCOOMMMMUUNNIICCAATTIIOONNSSKKIILLLLSSIIII
Module
No.Content
Teaching
Hours
I
Communication Games(as per the level and requirement of the class) 2 truth
and 1 lie, psychological tests through pictures, Building Blind, Blind obstacle
course.
II
Discussion on Newspaper/Magazines/Comics(Underlying process), dividing
the class into small teams as per their choice- after a week one group is to ask
questions about the happenings of last week- continuing on different sides,
debate based upon counterview, narrate all the seven activities of a particular
cartoon and which one do you like the most, most important happening of the
week, analyzing headlines- appeal and attractiveness, cover pages of
magazines- comparison, upgrading vocabulary- noticing phases and popular
acronyms, Quiz from Sunday column, analyzing advertisements and their
appeal
III
Presentation Skills: Analyzing locale, audience orientation, organizingcontent- Effective beginning, Development of thought and forceful/emphatic
conclusion, Visual aids- Usage of PPT- Theory & practice;
Non-Verbal clues: Significance and awareness of basics- posture & gestures,
i.e. eye contact, hand movement, gap from the audience, assessing the mood
and response of the audience.
Model presentation, Presentation on long story, Novel, Drama, Poetry e.g.- Who
moved my cheese by Spencer Johnson, The Barber's Trade Union by Mulk Raj
Anand, Jonathan Livingstone Seagull- Richard Bach, To Kill a Mockingbird-
Harper Lee, Miracles on the water- Tom Nagasaki.
IV
Debate and group discussion:Basic Theory- Difference between debate and
GD, Why GDs, Skills gauged during GD, major kinds of GDs, Dos and don'ts of
GD.
Practice of debate-Famous controversial topics to simulate the logic and free
flow of communication;
GDs- on simple factual topics, argumentative/controversial topics, Current
topics; Group Discussion/Case study on the topics with perceptual variety.
V
Role play: Simple role play- from student life(involving friends, teachers,
parents);
Advanced role plays -creating business related situations, Famous speeches
from epics(if the class is comfortable with it);
Enacting a drama popular one act play, Theme enactment (the theme is
provide to the team 1 week back, One theme to the whole batch- competition)
Credits: 02 LTP: 003Semester II
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
MMEEEE118822::EENNGGIINNEEEERRIINNGGDDRRAAWWIINNGG
Module
No.
ContentTeaching
Hours
I
Introduction to drawing instruments, sheet layout, types of lines and their uses,
lettering, concepts of scales in drawing and their types, types of dimensioning,
application of symbols and conventions in drawing practice, geometrical
construction.
Theory of projections, Orthographic & Oblique Projection of points, lines,
planes and solids, development of surfaces & section of solids, concepts of
isometric and perspective views.
Introduction to computer aided drawing and various softwares available in the
market. Isometric projection, conversion of pictorial views to orthographic
views and vice versa, Computer Aided drawing using Auto CAD.
References:
Bhatt N.D. and Panchal V.M. , Elementary Engineering Drawing , Charothar Publishing,
Gujarat.
Dhawan R.K. , A Text book of Engineering Drawing, S. Chand.
Gopalkrishna K.R. , Engg. Graphics, Subhash Publishers, Banglore.
Trymbaka Murty.S , Computer Aided Engineering Drawing , T.K. International Publishing
House Pvt. Ltd. New Delhi.
Luzadder Warren J. and Duff John M. , Fundamentals of Engineering Drawing with an
introduction to Interactive Computer Graphics for Design and Production, PHI, New
Delhi. Singh Ajit , Machine Drawing,TMH, New Delhi.
Credits: 02 LTP: 003Semester II
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
AAHHCC118811::CCHHEEMMIISSTTRRYYLLAABB
Any TEN Experiments are to be performed
Module
No.Content
Teaching
Hours
I
1. Preparation and Standardization of solutions.
2. To determine the constituents and amount of alkalinity of the supplied
water sample.
3. To determine the percentage of available chlorine in given sample of
bleaching powder.
4. To determine pH of a solution using a pH-meter and titration of such
solution pH-metrically.
5. Determination of free CO2in a given sample of water.
6. To determine the Ferrous ion content in given iron ore by titrimetricanalysis against standard K2Cr2O7solution using K3[Fe(CN)]6as an external
indicator.
7. To determine iron concentration in the sample of water by colorimetric
method. The method involves use of KCNS as color developing agent and the
measurements are carried out at max 480nm.
8. To determine the viscosity of an addition polymer like polystyrene sample
by using Ostwald viscometer relative to water.
9. To determine the temporary and permanent hardness of water by using
EDTA or complexometry.
10. To determine the equivalent weight of iron by chemical displacement
method. The equivalent weight of copper is 63.5.11. To determine chloride ion in a given water sample by Argentometric
method (Mohrs Method).
12. To determine the moisture content in a given sample of coal.
13. To determine the calorific value of a solid fuel by bomb calorimeter.
14. Show that inversion of cane sugar is the example of first order reaction by
polarimeter.
Credits: 01 LTP: 002Semester II
-
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
CCSSEE118822::PPRROOBBLLEEMMSSOOLLVVIINNGGLLAABB
Module
No.Content
Teaching
Hours
I
(1) Recursion
a. WAP to calculate factorial of a number.
b. WAP to generate table of any number.
c. WAP to find GCD of two numbers.
d. WAP to calculate nth term of Fibonacci Series 1,1,2,3,5,8
e. WAP to find the sum of digits of a number.
f. WAP to find the reverse of a string.
g.
(2) Structure
a. WAP to enter 10 records of student .Structure fields are Name, Roll no,
Marks. Calculate the average of their marks.
b. Declare a structure which will contain the following data for three
employees.i. Emp_code 3 characters,
ii. First_name 20 characters,
iii. Middle_initial 1 character,
iv. Last_name 20 characters.
v. The employee code to be stored in the structure are
E01,E02,E03. Write a program to input names for 3 employees
and printout initials of each.(e.g. Anil K Nehra will be printed as
AKN) along their codes.
c. WAP to demonstrate, how structure is passed to a function.
d. WAP to perform arithmetic operations using functions and switch
case and enumeration.
(3) Pointera. WAP to display the contents of 2D array using pointer.
b. WAP to sort an array in ascending order using dynamic memory
allocation and pointers.
(4) File handling
a. WAP to copy the contents of a given file into another file.
b. WAP to read the characters from a file and display the uppercase on a
console.
(5) Introduction to Data Structure
a. WAP to demonstrate various operations (create, push, pop, overflow,
underflow, peek, display) of STACK using array implementation.
b. WAP to demonstrate various operations (create, enqueue, dequeue,
overflow, underflow, peek, display) of Queue using array
implementation.
c. WAP to demonstrate various operations [(create, Traversing,
Searching, Inserting an element (at beginning, at end, after a given
element), Deleting an element (from beginning, from end, after a given
element)] of a linked List.
d. WAP to demonstrate various operations (create, Traversing,
Searching, Inserting an element at beginning, Deleting an element
from end) of a doubly linked List.
24
Credits: 01 LTP: 002Semester II
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
MMEEEE118833::AAPPPPLLIIEEDDMMEECCHHAANNIICCSSLLAABB
Module
No.
ContentTeaching
Hours
I
1. To conduct the tensile test and determine the ultimate tensile strength,
percentage elongation for a steel specimen.
2. To determine the compression test and determine the ultimate compressive
strength for a specimen.
3. To conduct the Impact-tests (Izod/Charpy) on Impact-testing machine to
find the toughness.
4. To determine the hardness of the given specimen using Brinell/Rockwell
hardness testing machine.
5. Friction experiment on inclined plane.
6. Simple & compound gear-train experiment.
7. Worm & worm-wheel experiment for load lifting.
8. Belt-Pulley experiment.
9. Bending of simply-supported beams for theoretical & experimental
deflection.
10. Torsion of rod/wire experiment.
11. Experiment on Trusses.
12. Experiment on Moment of Inertia.
Credits: 01 LTP: 002Semester II
-
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
AAHHMM220011::MMAATTHHEEMMAATTIICCSSIIIIII
Module
No.
ContentTeaching
Hours
I
Solution Of Cubic and Biquadratic Equations : Cardons Method of solving
Cubic equations, Descartes and Ferraris method of solving Biquadratic
equations.
Fourier Series :Fourier series of Period 2_ , Even and Odd functions, Fourier
series for discontinuous functions, Half range sine and cosine series, Change of
interval.
13
II
Fourier transform: Fourier sine and cosine integrals, Complex Fourier
transform, Fourier sine and cosine transforms, Applications to heat conduction
equations.
Z- Transform : Properties of Z transform, Inverse Z transform, Partialfractional and Residue method, applications of Z transform in solving
difference equations.
13
III
Functions of a complex variable: Analytic functions, Cauchy - Reimannequations , Harmonic function, Milnes Thomson method, Cauchy integraltheorem, Taylors, Maclaurins and Laurents series (without proof ), Zeros and
Singularities, Residue, Cauchy Residue theorem, Contour integration involving
unit circle.
14
References:
E. Kreyszig ,Advanced Engg. Mathematics, John Wiley & Sons, 9th edition.
Bali & Goyal , A Text Book of Engg. Mathematics, Infinity Science Press.
Peter V.ONeil , Advanced Engg. Mathematics, Thomson Learning.
M.D.Greenberg , Advanced Engineering Mathematics, Pearson Education Inc. Allen Jeffrey , Advanced Engineering Mathematics, Academic Press.
B.V.Ramanna , Higher Engg. Mathematics, TMH New Delhi.
Credits: 04 LTP: 310Semester III
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
CCEEEE220011::EENNVVIIRROONNMMEENNTTAALLSSTTUUDDIIEESS
Module
No.
ContentTeaching
Hours
I
Basics Of Environmental Studies:
Environmental Studies: Introduction, Scope and Importance Environment:
Concept, Natural and Anthropogenic Environment Natural Environment:
Structure & Function of Atmosphere, Hydrosphere, Lithosphere and Biosphere
Ecology and Ecosystem: Definitions Types, Structure & Functions of Ecosystem.
7
II
Natural Resources:
Natural Resources: Introduction, Classification, Concept of Conservation
Present Status and Major Issues Related to Water Resources, Forest Resources
and Mineral Resources Energy Resources: Introduction, Classification, Energy
Use Patterns, Energy Crisis, Alternative Energy Resources Present Status andMajor Issues Related to Fossil Fuels, Hydroelectricity, Nuclear Energy, Solar
Energy and Biomass Energy.
6
III
Current Environmental Problems:
Effects of Human Activities on Environment: Effect of Agriculture, Housing,
Mining, Transportation and Industries Environment Pollution: Causes, Effects
and Control of Air Pollution, Water Pollution, Land Pollution and Noise
Pollution Introduction and Management of Solid Wastes and Hazardous Wastes
Global Environmental Challenges: Global Warming, Ozone Layer Depletion,
Acid Rain, Urbanization, Overpopulation and Biodiversity Depletion.
7
IV
Environmental Protection:Environmental Protection: Role of Citizens, Role of Government, Initiatives by
NGOs, Contribution of International Agencies and Conventions Approaches to
Environmental Protection: Public Awareness, Environmental Education,
Environmental Ethics, Environmental Laws and Environmental Economics
Tools and Strategies: Environmental Impact Assessment, Life Cycle
Assessment, Ecological Footprints and Sustainable Development Efforts
towards Environmental Protection in India.
6
References:
Benny Joseph , Environmental Studies. Deswal & Deshwal , Textbook on Environmental Studies.
AK De , Environmental Studies.
Shashi K Singh and Anisha Singh , Environmental Science & Ecology.
Agarwal and Sangal , Environment & Ecology.
Credits: 02 LTP: 200Semester III
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
EECCEE220011::EELLEECCTTRROOMMAAGGNNEETTIICCFFIIEELLDDTTHHEEOORRYY
Module
No.
ContentTeaching
Hours
I
Review of vector algebra
Scalar & vectors, Unit vectors, Vector addition & subtraction, Position vector,
Vector Multiplications, Components of Vector.
Coordinate System & Transformation
Cartesian, cylindrical and Spherical coordinates & their transformation.
Vector Calculus
Line, Surface and Volume Integrals, Gradient of a scalar, Divergence of a Vector,
Curl of a Vector, Divergence Theorem , Stokess Theorem.
Electrostatics-I
Coulombs law & field intensity, Electric fields due to continuous chargedistributions. Electric flux density, Gausss law, Electric potential.
13
II
Electrostatics-II
Electric Dipole, Energy density in electrostatic field, Conductors and current,Polarization in dielectrics, Continuity equation and relaxation time, Boundary
conditions, Poissons and Laplaces equation, Capacitance, Method of Images.
Magnetostatics
Biot-savarts law, Amperes Circuit law, Magnetic flux density, The scalar andvector magnetic potential, Maxwells equations for static field, Forces due to
magnetic field, Magnetic torque and moment, Magnetization in materials,
Magnetic boundary conditions, Inductance, Magnetic energy.
14
III
Maxwells Equations
Faradays law, Displacement current, Maxwells equations in point and integral
forms, Retarded potential
E M Wave Propagation
Wave propagation in lossy dielectrics, Plane wave in lossless dielectrics, Plane
wave in free space, Plane wave in good conductors, Power and the Poynting
vector, Reflection of a plane wave at normal and oblique incidence, wave
polarization.
Transmission Lines
Transmission line parameters, Transmission line Equation, Lossless and low
loss propagation, Wave reflection and VSWR, transmission line of finite length,
Reflection Coefficient, Standing wave ratio, Stub Matching, Smith chart and
measurement of inductance, capacitance and resistance with the help of smith
chart.
14
Text Book:
1. Jordan E.C. and Balmain K.G., Electromagnetic wave and radiating Systems, PHI Second
edition.
2.
W.H. Hayt and J.A. Buck, Electromagnetic Field Theory, 7th TMH.Reference Books:
1. M.N.O. Sadiku, Elements of Electromagnetics, 4th Ed, Oxford University Press
2. Kraus, F Electromagnetics Tata Mc Graw Hill fifth edition.
3. Ramo S, Whinnery T.R. and Vanduzer T, Field and Waves in communication
electronics John Wiley and sons third edition.
Credits: 04 LTP: 310Semester III
-
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
EECCEE220022::DDIIGGIITTAALLEELLEECCTTRROONNIICCSS
Module
No.
ContentTeaching
Hours
I
Logic Families, Diode, BJT & MOS as a switching element, concept of transfer
characteristics, Input characteristics and output characteristics of logic gates,
Fan-in, Fan-out, Noise margin, circuit concept and comparison of various logic
families: TTL, CMOS Tri-state logic, open collector output, packing density,
power consumption & gate delay.
Digital system and binary numbers: Signed binary numbers, binary codes,
Cyclic Codes, Error Detecting and Correcting Codes, Hamming Codes. Floating
point representation.
Gate-level minimization : Five variable K-Map, dont care conditions, POS
simplification, NAND and NOR implementation, Quine Mc- Clusky method
(Tabular method)
13
II
Combinational Logic : Combinational circuits, analysis procedure, designprocedure, Binary Adder-Subtractor, Decimal Adder, Binary Multiplier,
Magnitude Comparator, Decoders, Encoders, Multiplexers
Synchronous sequential logic: Sequential Circuits, Storage Elements : Latches,
Flip Flops, Analysis of Clocked Sequential Circuits, State Reduction and
Assignments, Design Procedure
Register and counters: Shift Registers, Ripple Counter, Synchronous Counter,
Other Counters.
14
III
Registers and Counters: Shift Registers, Ripple Counter, Synchronous Counter,
Other Counters.
Memory and programmable logic : RAM, ROM, PLA, PAL, FPGA, PROM, EPROM,
EEPROM
Asynchronous Sequential Logic : Analysis procedure, circuit with latches, Design
procedure, Reduction of state and flow table, Race free state assignment,
hazards.
14
Text Book:
1. M. Morris Mano and M. D. Ciletti, Digital Design 4th Edition, Pearson Education
2. S. Salivahanan & S. Asivazhagan, Digital Circuit & Design, IInd Edition
Credits: 04 LTP: 310Semester III
-
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
EECCEE220033::EELLEECCTTRROONNIICCDDEEVVIICCEESS&&CCIIRRCCUUIITTSS
Module
No.
ContentTeaching
Hours
I
Review of transistors: all configurations of BJTs and FETs with their
characteristics. High frequency equivalent circuits of BJTs, MOSFETs, Miller
effect, Short circuit current gain, s-domain analysis and amplifier transfer
function. Low and high frequency response of BJTs and FETs in all
configurations.
12
II
Feedback Amplifiers: Classification of amplifiers, the feedback concept, The
transfer gain with feedback, General characteristics of negative feedback
amplifiers, input resistance, output resistance, Method of analysis of feedback
amplifier, voltage series feedback, voltage shunt feedback, current series,
current shunt feedback.
Oscillators: Conditions for oscillations, Sinusoidal oscillators, the phase shiftoscillators, resonant circuit oscillators, a general form of oscillator circuit, the
Wein Bridge oscillators, crystal oscillators, frequency stability
14
III
Output stages and Power amplifiers: Power amplifiers, Power Transistors,
Class A, Class B, Class AB, Class C operation, Design Application.
Power Devices: The p-n-p-n Diode, Semiconductor Controlled Rectifier,
Insulated Gate Bipolar Transistor, DIAC, TRIAC.
14
Text Books:
1. Neamen D A, Electronics Circuits, 3rd Ed TMH
2. Ben G. Streetman, Sanjay Banerjee, Solid State Electronic Devices , 5th Ed.PHI
Reference Books:
1. Jacob Millman,Christos Halkias, Satyabrata Jit, Electronic Devices and Circuits, TMH
2. Sedra S., Smith K., Micro-electronics ,5th edition, OXFORD
Credits: 04 LTP: 310Semester III
http://www.tatamcgrawhill.com/cgi-bin/same_author.pl?author=Jacob+Millmanhttp://www.tatamcgrawhill.com/cgi-bin/same_author.pl?author=Christos+Halkiashttp://www.tatamcgrawhill.com/cgi-bin/same_author.pl?author=Satyabrata+Jithttp://www.tatamcgrawhill.com/cgi-bin/same_author.pl?author=Satyabrata+Jithttp://www.tatamcgrawhill.com/cgi-bin/same_author.pl?author=Satyabrata+Jithttp://www.tatamcgrawhill.com/cgi-bin/same_author.pl?author=Christos+Halkiashttp://www.tatamcgrawhill.com/cgi-bin/same_author.pl?author=Jacob+Millman -
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
EEEEEE220011::NNEETTWWOORRKKAANNAALLYYSSIISS&&SSYYNNTTHHEESSIISS
Module
No.
ContentTeaching
Hours
I
A1: Network Theorems (Applications to ac networks):
Super-position theorem, Thevenins theorem, Nortons theorem, Maximum
power transfer theorem, Millmans theorem, Compensation theorem,
Tellegens theorem, Reciprocity Theorem.
A2: Graph Theory:
Graph of a Network, concept of tree, co-tree, link, basic loop and basic cut set,
Incidence matrix, cut set matrix, Tie set matrix; Duality; Loop and Nodal
methods of analysis..
14
II
B1: Two Port Networks:
Characterization of LTI two port networks: ZY, ABCD and h parameters,
reciprocity and symmetry. Inter-relationships between the parameters, inter-
connections of two port networks, Ladder and Lattice networks. T & Representation.
B2: Transient Analysis:
RL, RC and RLC circuits classical approach.
B3: Network Functions:
Concept of Complex frequency, Transform Impedances, Network functions of
one port and two port networks, properties of driving point immittance and
transfer functions.
14
III
C1: Network Synthesis:
Positive real function; definition, properties of LC, RC and RL driving point
functions, synthesis of LC, RC and RL driving point immittance, functions using
Foster and Cauer first and second forms.
C2: Filters:
Image parameters and characteristics impedance, low pass, highpass, (constant
K type) filters, and introduction to active filters.
14
Text Books:1 D.Roy Choudhary, Networks and Systems 2ndEd., New Age International (P) Ltd. Publishers.2 C.L Wadhwa, Network Analysis and Synthesis(Including Linear System Analysis) 3rdEd., New
Age International Publishers.
3 A.Chakrabarti, Network Analysis & Synthesis, Dhanpat Rai & Co.
Reference Books:4 M.E. Van Valkenburg, An Introduction to Modern Network Synthesis,Wiley Eastern Ltd.
5 Sudhakar, Circuits & Networks: Analysis and Synthesis, TMH Education Pvt. Ltd.
6 K.S. Suresh Kumar, Electric Circuits and Networks Pearson Education.
Credits: 04 LTP: 310Semester III
-
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
EECCEE228811::DDIIGGIITTAALLEELLEECCTTRROONNIICCSSLLAABB
List of Experiments
1. Realization of 4-bit even / odd parity checkers using Ex-OR gate.
2. Realization of 4-bit binary decoder/ demultiplexer.
3. Realization of 4-bit / 3-bit multiplexer.
4. Realization of full-adder & full subtractor using logic gates and using Boolean
expression.
5. Realization of decimal to BCD encoder using IC 74147.
6. Realization and implementation of RS, JK, T and D flip-flop using logic gates.
7. Realization and implementation serial in parallel out and parallel in serial out
shift register.
8. Realization and implementation 4-bit binary ripple counter using JK flip-flop.
9. Realization and implementation of 2-bit up/down synchronous counter.
10. Realization and implementation of Arithmetic logic unit.
Credits: 01 LTP: 002Semester III
-
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
EECCEE228822::EELLEECCTTRROONNIICCSSLLAABB
List of Experiments
1. To study application of CRO and function generator.
2. To study application of diode as (a) clipper ckt (b) clamper ckt.
3. To study application of Zener diode as a voltage regulator.
4. To study V-I characteristic of JFET and MOSFET.
5. Realization of BJT as a buffer amplifier.
6. Realization of multistage amplifier using BJT and calculation of current gain
7. Realization of JFET as amplifier and determine various parameters.
8. Realization of MOSFET as a switch.
9. Realization of Op-Amp as integrator & differentiator.
10.Realization of tuned amplifier and its application in Hartley and Collpit oscillator.
11.Realization of Wien Bridge oscillator.
12.Realization of crystal oscillator.
Credits: 01 LTP: 002Semester III
-
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
EEEEEE228811::NNEETTWWOORRKKLLAABB
List of Experiments
1. Verification of principle of superposition with dc sources.
2. Verification of Thevenin, Norton and Maximum power transfer theorems in ac
circuits.
3. Verification of Tellegins theorem for two networks of the same topology.
4. Determination of transient response of current in RL and RC circuits with step
voltage input.
5. Determination of transient response of current in RLC circuit with step voltage input
for underdamp, critically damp and overdamp cases.
6. Determination of frequency response of current in RLC circuit with sinusoidal ac
input.
7. Determination of z and h parameters (dc only) for a network and computation of Y
and ABCD parameters.
8. Determination of driving point and transfer functions of a two port ladder networkand verify with theoretical values.
9. Determination of frequency response of a Twin T notch filter.
10.To determine attenuation characteristics of a low pass / high pass active filters.
11.Implementation of Pre-emphasis and De-emphasis circuits.
Credits: 01 LTP: 002Semester III
-
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
EECCEE220066::MICROPROCESSORS AND APPLICATIONS
Module
No.
ContentTeaching
Hours
I
Microprocessor and Microprocessor Development Systems:Evolution of Microprocessor,
Microprocessor architecture and its operations, memory, inputs-outputs (I/Os), data transfer
schemes interfacing devices, architecture advancements of microprocessors, typical
microprocessor development system.
8-bit Microprocessors
8085 microprocessor: pin configuration, internal architecture. Timing & Signals: control
and status, interrupt: ALU, machine cycles, Instruction Set of 8085, Addressing Modes,
Instruction format, op-codes, mnemonics, no. of bytes, RTL, variants, no. of machine cycles
and T states
Instruction Classification: Data transfer, arithmetic operations, logical operations,
branching operation, machine control; Writing assembly Language programs, Assember
directives.
13
II
16-bit Microprocessors
8086 microprocessor: pin configuration, internal architecture. Timing & Signals: control
and status, interrupt: ALU, machine cycles, Instruction Set of 8086, Addressing Modes,
Instruction format, op-codes, mnemonics, no. of bytes, RTL, variants, no. of machine cycles
and T states
Interrupts:Hardware and software interrupts, responses and types.
13
III
Peripheral Interfacing:
I/O programming: Programmed I/O, Interrupt Driven I/O, DMA I/O interface: serial and
parallel communication, memory I/O mapped I/Os. Peripheral Devices: 8237 DMA
controller, 8255- Programmable peripheral interface, 8253/8254 Programmable
timer/counter. 8259 programmable Interrupt Controller, 8279-keyboard display controller,
ADC/DAC interfacing.
Introduction to Advanced Microprocessors and Microcontrollers.
13
Text Books:
1. Gaonkar, Ramesh S, Microprocessor Architecture, programming and applications with the 8085 Pen ram International
Publishing 5th Ed.
2. Ray, A.K. & Burchandi, K.M., Advanced Microprocessors and Peripherals: Architecture, Programaming and
Interfacing Tata Mc. Graw Hill.
Reference Books:
3. Uffenbeck, John, Microcomputers and Microprocessors PHI/ 3rd Edition 5. Brey, Barry B. INTEL Microprocessors
Prentice Hall ( India)
4. M. Rafiquzzaman, Microprocessors- Theory and applications PHI
5. B. Ram, Advanced Microprocessor & Interfacing Tata McGraw Hill
6. Renu Singh & B.P. Singh, Microprocessor and Interfacing and applications New Age International
7. Hall D.V., Microprocessors Interfacing Tata Mc Graw Hill
8. Liu and Gibson G.A., Microcomputer Systems: The 8086/8088 Family Prentice Hall (India)
Credits: 04 LTP: 310Semester IV
-
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
EECCEE220055::SEMICONDUCTOR MATERIALS AND DEVICES
Module
No.
ContentTeaching
Hours
I
EXCESS CARRIERS IN SEMICONDUCTORS.
Optical Absorption. Luminescence. Photoluminescence. Electroluminescence.
Carrier Lifetime and Photoconductivity. Direct & Indirect Band gap Semiconductor,
Direct & Indirect Recombination, Steady State Carrier Generation, Quasi-Fermi
Levels. Photoconductive Devices. Diffusion & Drift of Carriers. The Continuity
Equation. Steady State Carrier Injection. The Haynes-Shockley Experiment.
Gradients in the Quasi-Fermi Levels.
JUNCTIONS.
Equilibrium Conditions. The Contact Potential. Equilibrium Fermi Levels. Space
Charge at a Junction. Steady State Conditions. Reverse Bias. Reverse-Bias
Breakdown. Transient and A.C. Conditions. Time Variation of Stored Charge. The
Varactor Diode. Effects of Contact Potential on Carrier Injection. Graded Junction.
13
II
Type of Junctions
Metal-Semiconductor Junctions. Schottky Barriers. Rectifying Contacts. Ohmic
Contacts. Typical Schottky Barriers. Heterojunctions.
OPTOELECTRONIC DEVICES.
Photodiodes. Solar Cells. Photodetectors. Light-Emitting Diodes. Light-Emitting
Materials. Multilayer Heterojunctions for LEDs. Lasers. Semiconductor Lasers.
Population Inversion at a Junction. Emission Spectra for p-n Junction Lasers..
Heterojunction Lasers. Materials for Semiconductor Lasers.
HIGH FREQUENCY AND HIGH POWER DEVICES.
Tunnel Diodes: Degenerate Semiconductors. Tunnel diode Operation. Circuit
Applications. Transit Time Devices: The IMPATT Diode. Gunn Effect and
Related Devices:Transferred Electron Mechanism. Formation and Drift of Space
Charge Domains. Fabrication.
13
III
BIPOLAR JUNCTION TRANSISTORS.
Solution of the Diffusion Equation in the Base Region. Charge Control Analysis.
The Switching Cycle. Drift in the Base Region. Base Narrowing. Avalanche
Breakdown. Injection Level; Thermal Effects. Base Resistance and Emitter
Crowding.
Gummel-Poon Model. Kirk Effect. High-Frequency Transistors. Heterojunction
Bipolar Transistors.
FIELD-EFFECT TRANSISTORS
The Metal-Semiconductor FET. The GaAs MESFET. The High Electron Mobility
Transistor (HEMT). Short Channel Effects. The Metal-Insulator-SemiconductorFET. Basic Operation. The Ideal MOS Capacitor. Threshold Voltage. MOS
Capacitance-Voltage Analysis. Time-dependent Capacitance Measurements.
13
Text Books:1. Ben.G.Streetman & Sanjan Banerjee Solid State Electronic Devices (5th Edition) PHI Private
Ltd, 2003
Credits: 04 LTP: 310Semester IV
-
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
EECCEE220044::SIGNALS AND SYSTEMS
Module
No.Content
Teaching
Hours
I
Signals:
Definition, types of signals and their representations, commonly usedsignals (in continuous-time as well as in discrete-time), operations oncontinuous-time and discrete-time signals (including transformations ofindependent variables).
Systems:
Classification, linearity, time-invariance and causality, impulse response,characterization of linear time-invariant (LTI) systems, unit sampleresponse, convolution summation, step response of discrete time systems,
stability.convolution integral, co-relations, signal energy and energy spectral density,
signal power and power spectral density, properties of power spectral
density.
13
II
Fourier series
Trigonometric & Exponential Fourier Series Analysis, Sampling Theorem,Nyquist criteria for sampling theorem
Fourier Transforms (FT):(i) Definition, conditions of existence of FT, properties, magnitude and
phase spectra, Some important FT theorems, Parsevals theorem, InverseFT, relation between LT and FT(ii) Discrete time Fourier transform (DTFT), inverse DTFT, convergence,properties and theorems, Comparison between continuous time FT andDTFT
13
III
Laplace-Transform (LT) and Z-transform (ZT):(i) One-sided LT of some common signals, important theorems andproperties of LT, inverse LT, solutions of differential equations using LT,Bilateral LT, Regions of convergence (ROC)(ii) One sided and Bilateral Z-transforms, ZT of some common signals,ROC, Properties and theorems, solution of difference equations using one-
sided ZT, s- to z-plane mappingApplication of Signals and Systems in MATLAB
13
Text Books:P. Ramakrishna Rao, `Signal and Systems 2008 Edn., Tata MGH, New Delhi
Reference Books:
1. Chi-Tsong Chen, `Signals and Systems, 3rd
Edition, Oxford University Press,20042. V. Oppenheim, A.S. Willsky and S. Hamid Nawab, signals & System, PEARSON Education,Second Edition, 2003.
Credits: 04 LTP: 310Semester IV
-
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B.Tech. (Electronics & Communication Engineering) (w.e.f. Session-2012-13)
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING, Institute of Engineering & Technology
EEEEEE220022::EELLEECCTTRROONNIICCMMEEAASSUURREEMMEENNTTSSAANNDDIINNSSTTRRUUMMEENNTTAATTIIOONN
Module
No.
ContentTeaching
Hours
I
Theory of Measurement
Introduction, Performance Characteristics: Static & Dynam