B.Tech. Electronics & Communication Engg.
Study
scheme
|
B.Tech. Electronics & Communication Engg. |
|
3rd Semester |
|
Course code |
Course Title |
L |
T |
P |
Int. |
Ext. |
TOTAL |
|
|
AM-201 |
Applied Mathematics-III |
4 |
1 |
0 |
40 |
60 |
100 |
|
|
EE-201 |
Network Analysis & Synthesis |
3 |
2 |
0 |
40 |
60 |
100 |
|
|
EC-201 |
Electronics Devices & Circuits |
3 |
1 |
0 |
40 |
60 |
100 |
|
|
EC-203 |
Electronic Measurement & Instrumentation |
3 |
1 |
0 |
40 |
60 |
100 |
|
|
CS –252 |
Object Oriented Programming using C++ |
3 |
1 |
0 |
40 |
60 |
100 |
|
|
EC-205 |
Lab.-I (Electronic Devices & Networks) |
0 |
0 |
2 |
30 |
20 |
50 |
|
|
EC-207 |
Lab.-II (Instrumentation) |
0 |
0 |
2 |
30 |
20 |
50 |
|
|
CS-254 |
Lab.-III (Object Oriented Programming) |
0 |
0 |
2 |
30 |
20 |
50 |
|
|
WS |
*Workshop Training |
- |
- |
- |
60 |
40 |
100 |
|
|
|
TOTAL |
16 |
6 |
6 |
|
|
750 |
|
|
4th Semester |
||||||||
|
Course code |
Course Title |
L |
T |
P |
Int. |
Ext. |
TOTAL |
|
EC-202 |
Analog Electronics |
3 |
1 |
0 |
40 |
60 |
100 |
|
EC-204 |
Digital Electronics |
3 |
2 |
0 |
40 |
60 |
100 |
|
EC-206 |
Signals and Systems |
3 |
1 |
0 |
40 |
60 |
100 |
|
EC-208 |
Electromagnetic Field Theory |
3 |
1 |
0 |
40 |
60 |
100 |
|
IC-204 |
Linear Control Systems |
3 |
2 |
0 |
40 |
60 |
100 |
|
EC-210 |
Lab.-IV (Analog Electronics) |
0 |
0 |
2 |
30 |
20 |
50 |
|
EC-212 |
Lab.-V (Digital Electronics) |
0 |
0 |
2 |
30 |
20 |
50 |
|
IC-212 |
Lab.VI (Control Systems) |
0 |
0 |
2 |
30 |
20 |
50 |
|
|
General Fitness |
|
|
|
100 |
|
100 |
|
|
TOTAL |
15 |
7 |
6 |
480 |
420 |
750 |
5th Semester
|
CODE |
SUBJECT |
TH |
TUT |
PR |
INT |
EXT |
TOTAL |
|
EC-301 |
Analog Communication
Systems |
3 |
1 |
0 |
40 |
60 |
100 |
|
ME-251 |
Total Quality Management |
3 |
1 |
0 |
40 |
60 |
100 |
|
EC-303 |
Antenna & Wave
Propagation |
3 |
1 |
0 |
40 |
60 |
100 |
|
EC-305 |
Linear Integrated Circuits
|
3 |
1 |
0 |
40 |
60 |
100 |
|
EC-307 |
Microprocessors & its
applications |
3 |
1 |
0 |
40 |
60 |
100 |
|
EC-309 |
Pulse, Digital &
Switching Circuits |
3 |
1 |
0 |
40 |
60 |
100 |
|
EC-311 |
Lab-VII: Analog
Communication Systems |
0 |
0 |
2 |
30 |
20 |
50 |
|
EC-313 |
Lab-VIII: Linear
Integrated Circuits |
0 |
0 |
2 |
30 |
20 |
50 |
|
EC-315 |
Lab-IX: Microprocessors |
0 |
0 |
2 |
30 |
20 |
50 |
|
|
Institutional Training |
|
|
|
60 |
40 |
100 |
|
|
TOTAL: 32 Contact Hrs. |
18 |
6 |
6 |
|
|
850 |
** There should be industrial/institutional
training of 8 weeks duration in the summer vacation after 4th
semester
6th / 7th
Semester*
|
CODE |
SUBJECT |
TH |
TUT |
PR |
INT |
EXT |
TOTAL |
|
EC-302 |
Microwave & Radar
Engineering |
3 |
1 |
0 |
40 |
60 |
100 |
|
EC-304 |
Digital Communication |
3 |
1 |
0 |
40 |
60 |
100 |
|
EC-306 |
Micro-Controller
& Embedded Systems |
3 |
1 |
0 |
40 |
60 |
100 |
|
CE-216 |
Environment Science |
3 |
1 |
0 |
40 |
60 |
100 |
|
EC-308 |
Digital Signal Processing |
4 |
1 |
0 |
40 |
60 |
100 |
|
* |
Department Elective-I |
3 |
1 |
0 |
40 |
60 |
100 |
|
EC-310 |
Lab-X: Microwave
Engineering |
0 |
0 |
2 |
30 |
20 |
50 |
|
EC-312 |
Lab-XI: Digital
Communication |
0 |
0 |
2 |
30 |
20 |
50 |
|
EC-314 |
Lab-XII: Micro-Controller |
0 |
0 |
2 |
30 |
20 |
50 |
|
EC-318 |
Lab-XIII: Digital Signal
Processing |
0 |
0 |
2 |
30 |
20 |
50 |
|
|
General Fitness |
- |
- |
- |
100 |
- |
100 |
|
|
TOTAL: 33 Contact Hours |
19 |
6 |
08 |
|
|
900 |
*
Department Elective-I:
1. DE-1.1: Cellular & Mobile Communication
2. DE-1.2: Microelectronics
3. DE-1.3: Human Resource Management
4. DE-1.4: Virtual Instrumentation
5. DE-1.5: Neural Network & Fuzzy Logic
|
6th
/ 7th Semester* |
|||||
|
|
Course Title |
Trg.Mgr. |
Internal |
Ext.Viva |
TOTAL |
|
|
6-month Industrial
Training |
|
|
|
|
8th Semester
|
CODE |
SUBJECT |
TH |
TUT |
PR |
INT |
EXT |
TOTAL |
|
CS-402 |
Computer Networks |
4 |
1 |
0 |
40 |
60 |
100 |
|
EC-404 |
Optical Fiber
Communications |
3 |
1 |
0 |
40 |
60 |
100 |
|
EC-406 |
VLSI Design &
Technology |
4 |
1 |
0 |
40 |
60 |
100 |
|
** |
Department Elective-II |
3 |
1 |
0 |
40 |
60 |
100 |
|
*** |
Department Elective-III |
3 |
1 |
0 |
40 |
60 |
100 |
|
EC-408 |
Lab-XVI: VLSI |
0 |
0 |
2 |
30 |
20 |
50 |
|
EC-410 |
Major Project |
0 |
0 |
6 |
180 |
120 |
300 |
|
|
General Fitness |
- |
- |
- |
100 |
- |
100 |
|
|
TOTAL: 30 Contact Hours |
17 |
5 |
8 |
|
|
950 |
** Department Elective-II:
1. DE-2.1: Industrial Electronics
2. DE-2.2: Wireless Systems & Network
3. DE-2.3: Bio-Medical Electronics
4. DE-2.4: Mechatronics
5. DE-2.5: Engineering Economics
*** Department Elective-III:
1. DE-3.1: Operating System
2. DE-3.2: Image Processing
3. DE-3.3: Satellite Communications
4. DE-3.4: Reliability Engg.
5. DE-3.5: TV Engg.
AM 201 MATHEMATICS-III
L T P
4 1 0
1. Fourier Series Periodic functions, Euler's formula. Even and odd functions, half range expansions, Fourier series of different wave forms.
2. Laplace Transforms Laplace transforms of various standard functions, properties of Laplace transforms, inverse Laplace transforms, transform of derivatives and integrals, Laplace transform of unit step function, impulse function, periodic functions, applications to solution of ordinary linear differential equations with constant coefficients, and simultaneous differential equations.
3. Special Functions Power series solution of differential equations, Frobenius method, Legendre's equation, Legendre polynomial, Bessel's equation, Bessel functions of the first and second kind. Recurrence relations, equations reducible to Bessel's equation, Error function and its properties.
4. Partial Differential Equations Formation of partial differential equations, Linear partial differential equations, homogeneous partial differential equations with constant coefficients Applications: Wave equation and Heat conduction equation in one dimension. Two dimensional Laplace equation, solution by the method of separation of variables. Laplacian in polar coordinates.
5. Functions of Complex Variable Limits, continuity, derivative of complex functions, analytic function, Cauchy-Riemann equation, conjugate functions, harmonic functions; Conformal Mapping: Mapping of a complex function, conformal mapping, standard transforms, mapping of standard elementary transformations, complex potential, applications to fluid flow problems; Complex Integration : Line integrals in the complex plane, Cauchy's theorem, Cauchy's integral formula and derivatives of analytic function. Taylor's and Laurent's expansions, singular points, poles, residue, complex integration using the method of residues, evaluation of real integrals by contour integration.
Books
Advanced Engineering Mathematics by Kreyszing Erwin ; Wiley Eastern, New Delhi
Higher Engineering Mathematics by BS Grewal : Khanna Publishers, New Delhi.
Numerical Solutions of Differential Equations by NK Jain ; Prentice Hall, Delhi.
Differential Equations by Sharma and Gupta ; Krishna Prakashan Media (P) Ltd., Meerut.
EE-201 NETWORK ANALYSIS AND SYNTHESIS
L
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3 2 0
Circuits Concepts : Circuits elements,
Independent and dependent sources, signals and wave forms; periodic and singularity voltages, step, ramp, impulse, Doublet. Loop currents and loop equations, node voltage and node equations, Network Theorems, Superposition, Thevenin's Nortan's Maximum Power Transfer, Reciprocity.
Time and Frequency Domain Analysis :
Representation of basic circuits in terms of generalised freq. & their response, Laplace transform of shifted functions, transient & steady response. Time domain behaviors from poles and zeros. Convolution Theorem.
Network Synthesis :
Network functions, Impedance & Admittance function, Transfer functions, Relationship between transfer and impulse response, poles and zeros and restrictions, Network function for two terminal pair network. Sinusoidal network in terms of poles & zeros. Real liability condition for impedance synthesis of RL & RC circuits. Network synthesis techniques for 2-terminal network, Foster and Cauer forms.
Filters Synthesis :
Classification of filters, characteristics impedance and propagation constant of pure reactive network, Ladder network, T section, IT section, terminating half section. Pass bands and stop bands. Design of constant-K, m-derived filters. Composite filters.
Books:
1. Network Analysis & Synthesis by Van Valkenberg
2. Network Analysis and Synthesis by Sudhakar Sham Mohan
3. Network Synthesis by IVS Iyer
4. Electric Circuits by JA Administer
5. Circuit Theory by Chakraborty
1. Diode Circuits
pn junction diode, concept of band structure, potential barrier, diode as a circuit element, half wave, full wave and bridge rectifier and determination of rms, average value, ripple factor and regulation, capacitor input, inductor input, RC and RL filter circuits, special propose diode; LED, LCD and Photo- diodes.
2. Bipolar junction Transistors
pnp & npn, transistor construction and characteristics in CB, CE and CC modes. Determination of h parameters from transistor characteristics. h parameter equivalent circuit of transistor. Conversion of h parameter from CB to CE and CC configuration. Graphical analysis of transistors as an amplifier, special purpose transistors, UJT (construction and characteristics only), photo- transistors.
3. Field Effect Transistors
Construction and characteristics of junction field effect transistor (JFET), MOSFET (both depletion and enhancement type), CMOSFET’s, parameters and equivalent circuit of an FET, biasing of FETs, FET as an amplifier in CS configuration.
4. Transistor Biasing and Stabilization
Operating point, bias stability, various biasing circuits, stabilization against Ico, VBE and beta. Bias compensation methods and thermal runaway.
5. Small Signal Low Frequency Transistor
Analysis of transistor amplifier using h-parameters in CB, CE and CC configuration. Comparison of three configurations in term A1, A21, R1, R0. Frequency response of amplifier. Effect of an emitter bypass capacitor, coupling capacitor, emitter resistance and shunt capacitors on frequency response of amplifier. Analysis of emitter follower using Miller’s theorem.
EC-203 ELECTRONICS MEASUREMENTS AND
INSTRUMENTATION
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3 1 0
1. ELECTRONIC
INSTRUMENTS
Electronics voltmeter, VTVM
Transistor voltmeter, Electronic Multimeter, CRO’s study of various stages in
brief, measurement of voltage, current phase and frequency, special purpose
oscilloscope, measurement of resistance, inductance, capacitance, using
Kelvin’s Maxwell’s and Schering bridge. Effective resistance at high frequency,
R meter, LCR meter.
2. INSTRUMENTATION FOR GENERATION AND ANALYSIS OF WAVEFORMS
Signal generators, function generator, wave analyzer,
harmonic distortion analyzer, spectrum analyzer, spectrum analysis.
3. INSTRUMENT TRANSFORMER
Current and potential transformers, constructional features,
ratio and phase angle error.
4. TRANSDUCERS
Principles of operation, qualitative treatment of strain
gauge, LVDT, thermocouple, piezo- electric crystal and photoelectric
transducers.
5. DATA ACQUISTION SYSTEM
Necessity of recorders, recording requirements, graphic
recorders, strip chart recorders, magnetic tape recorders, digital tape
recorders.
6. DISPLAY DEVICES
Electronic indicating instruments, seven segment display,
fourteen segmental display Nixie tube.
7. TELEMETRY
Introduction, method of data transmission, types of
telemetry systems and applications.
CS -252 OBJECT ORIENTED PROGRAMMING
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3 1 0
1. Basics of C & C++
Introduction, Basics, Data Type, Bit Field integer,
Operations, Control Structures, Storage Classes, User Defined Data Type,
Reserved Words and Standard 110 Statements in C & C++ .
2. Object Orient Programming With C++
Introduction ,Object Oriented Programming Concept,
Objective of OPP, Programming Structure in C++, Data Abstraction
3. Overloading and Information Hiding
Introduction, Function Overloading, Information Hiding
4. Memory Management in C++ :
Introduction
,Constructor-Automatic Initialization of Objects, Dynamic Memory Management ,
Default Constructor, Copy Constructor, Constructor and Information Hiding,
Destructor-Automatic Clear up of an Object
5. Inheritance
Introduction, Inheritance-Data and Code Sharing , Class
Derivation ,Ambiguity in Class Member Access ,Virtual Base Class-A Remedy ,
Class Initialization in Inheritance ,Arguments for the Base Class
6. Bindings and Polymorphism
Introduction , Bindings
in C++, Polymorphism
7. Generic Facility
Introduction ,Concept of Generic Facility, Generic Function ,Overloading a Generic Function, Generic Classes
8. File Handling in C++
Introduction , Concept of Stream in C++, File Positioning
Functions , Error Handling During File Operation
EC-205 LAB-I (ELECTRONIC DEVICES AND
NETWORKS)
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1. Study of Half wave, full wave & Bridge rectifiers.
2. Study of simple capacitive, T & p filters
3. Study of Zener regulator.
4. To plot the input and output characteristics of CE configuration.
5. To plot the input and output characteristics of CB configuration.
6. Determination of h- parameters of a transistors using output characteristics.
7. Design of transistor biasing circuits.
8. Study of frequency response of RC coupled amplifier.
9. Study of an emitter follower circuit.
10. To plot JFET characteristics in CS configuration.
11. Study of frequency response of CS- FET amplifier.
12. Design of constant K filters.
13. Design of m- derived filters.
EC-207 LAB-II INSTRUMENTATION
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LIST OF EXPERIMENTS
1. Measurement of Inductance by Maxwell’s Bridge.
2. Measurement of small resistance by Kelvin’s Bridge.
3. Measurement of Capacitance by Schering Bridge.
4. Measurement of Frequency by Wein Bridge.
5. Measurement of medium resistance by Wheat Stone’s Bridge.
6. Determination of frequency & phase angle using C.R.O.
7. To find the Q of a coil using LCR-Q meter.
8. Study of Resonance.
CS -254 Lab III (Object
Oriented Programming)
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0 0 2
List of experiments:
To write following programs in C /
C++ :
1.
Using
basic statements like control statements , looping statements, various I/O
statements and various data structures.
2. Creating classes in C++ for
understanding of basic OOPS features.
3. Representing concepts of data
hiding, function overloading and operator overloading.
4. Using memory management features
and various constructors and destructors.
5. Representing Inheritance,
virtual classes and polymorphism.
6. Writing generic functions.
7. File handling programs.
EC-
202 ANALOG ELECTRONICS
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3 1 0
1. HIGH
FREQUENCY TRANSISTOR
The high frequency T model, common base short
circuit current frequency response, alpha cutoff frequency, common emitter
short circuit current frequency response, hybrid pi CE transistor model, hybrid
pi conductance in terms of low frequency h parameters, CE short circuit current
gain obtained with hybrid pi model, current gain with resistive load.
2. LARGE
SINGAL AMPLIFIERS
Class A direct coupled with resistive load,
Transformer coupled with resistive load, design theory, power amplifier design,
harmonic distortion, power output, variation of output power with load, thermal
runaway, output transformer saturation, push-pull amplifiers, operation of
class- A push-pull amplifier, class- B push-pull amplifier, crossover
distortion, class AB push-pull amplifier, transistor phase invertor, conversion
efficiency of class B amplifiers, design of Class- B push-pull amplifier,
complementary- symmetry amplifier.
3. MULTISTAGE
AMPLIFIERS
Coupling of transistor amplifiers, frequency
response of coupled amplifiers, cascading of RC coupled amplifiers and their
analysis. Tuned Amplifiers: single tuned, double tuned and stagger tuned
amplifiers and their analysis.
4. FEEDBACK
IN AMPLIFIERS
Types of feedback, effect of negative feedback on
gain, bandwidth, stability, distortion and frequency response etc. Voltage
series, current series, voltage shunt, current shunt feedback circuits and
their analysis.
5. OSCILLATORS
Conditions of oscillations. Different types of
oscillators: RC Phase Shift, Wein Bridge, Hartley, Colpitts and Crystal
Oscillators. Derivation of expression for frequency and amplitude of these
oscillators.
6. REGULATED POWER SUPPLIES
Zener diode as Voltage Regulator, Transistor Series
and Shunt Regulators, Current limiting, Line and Load Regulation.
1.
Electronic Devices & Circuits by Millman- Halkias, Tata Mcgraw Hill
2. Electronic Devices & Circuits Theory by Boylestad, PH
3.
Electronic Devices & Circuits by Allen Mottorshead,
PHI
C-204 (Digital Electronics)
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3 2 0
1. Number System And Binary Code : Introduction, Binary, Octal and hexadecimal number system. Signed and unsigned number, Binary operations-addition; Subtraction, Multiplication and division; Subtractions using 1's and 2's compliment; ASCII code; Excess 3 code Gray code.
2. Minimization of logic function : OR, AND,NOT,NOR,NAND,EX-OR, Basic theorem of Boolean Algebra, sum of products and product of sums, canonical form, Minimisation using theorems, minimisation using K-map and Q-M method. Incompletely specified functions.
3. Combinational Logic Circuits : Introduction, Combinational circuit design, multiplexers, demultiplexer, encoders, decoders, adders, subtracters and code converters, parity checker, BCD display drive, magnitude comparators.
4. Sequential Circuits : Introduction, flip flop SR, JK, D, T edge triggerred and decked flip-flop, Registers. Type of Registers, circuit diagram, timing wave form and operations counters, counter design with state equation and state diagrams.
5. D/A and A/D Converters : Introduction, Weighted register D/A converter, binary ladder D/A converter, steady state accuracy test, D/A accuracy and resolution, parallel A/D converter, Counter type A/D converter Successive approximation A/D converter. Single and dual slope A/D converter A/D accuracy and resolution, Voltage of frequency conversion, Voltage of time conversion.
6. Semiconductor Memories : Introduction, Memory organisation, Classification and characteristics of memories, Sequential memories, ROMs, R/W memories. Content addressable memories. Programmable logic arrays, Charged-Coupled device memory.
7. Logic Families : RTL, DCTL, DTL, TTL, ECL and its various types, Comparison of logic families.
Recommended Books :
1. Digital principle and applications Malvino (TMH)
2. Modern digital electronics R. P. Jain (PIH)
3. Digital electronics principle Malvino (THM)
4. Modern digital systems design Cheung & ----- (WPC)
5. An Engg. Approach to digital design Eletcher (PIH)
EC-206 Signal and Systems
System and Signal Analysis : Classification of signals and systems, signal representation using fourier series, complex exponential fourier series, fourier series representation of periodic signals speriodic signal representation using fourier transform, fourier transform of periodic power signals, power spectral density, system response impulse, step and time domain response analysis, transfer function and frequency, Domain analysis effect of Transfer function on spectral densities, Stationary of non-Transients.
Random Signal Theory : Introduction to probabilities Defination, probability of Random events, Joint and conditional probability, probability Mass function statistical averages. Probability density functions and statistical averages. Examples of P.D. function, transformation of random variables random processes, stationary, true averages and Fygodic.
Signal Transmission Through Linear Networks : Convolution theorem, its graphical intrepretation. Conditional function with a unit Impulse function. The sampling theorem low pass and band pass network, matched filter, input output relations with random inputs, envelope detector, equivalent noise band width Noise. Introduction to thermal noise, shot noise partial noise, low frequency or flicker, Gaussion Noise, burst noise, avalanche noise bipolar transistor noise, F.E.T. noise, Equivalent input noise signal to noise ration, noise factor, amplifier input noise in terms of F-Noise factor or amplifiers, Noise temperature, Noise equivalent Bandwidth, Noise fig. Experimental determination of noise figure, Pulse response & Digital No. & elimination.
EC-208 Electromagnetic Field Theory
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3 1 0
Note : Eight questions to be set covering the complete syllabus. The students are required to attempt any five questions.
1. Introduction Review of Electrostatic and Magnetostatics.
2. Time Varying Fields Maxwell's equations in differential and integral forms concept of displacement current. Boundary conditions.
3. Electromagnetic Waves Wave equation and its solution in different media, plane wave, Sinusoidal time variation, polarization. Reflection of waves by perfect di electronics and by perfect insulators. Surface impedance, Poynting theorem and Poynting vector.
4. Guided Waves Waves between parallel planes. TE and TM waves and their characteristics. TEM waves, velocities of propagation, Attenuation in parallel plane guides, wave impedance.
5. Transmission Lines Circuit representation of parallel plane transmission lines. Parallel plane transmission line with losses. Law loss RF and UHF transmission lines. Distortionless condition. Transmission line charts-impedance matching.
6. Wave Guides Rectangular and circular wave guides. TE and TM waves in rectangular wave guides. Impossibility of TEM wave in wave guides. Wave impedance and characteristics impedances. Transmission line analogy for wave guides. Attenuation and factor of wave guides. Dielectric slab wave guides.
Recommended Books
Name of Book , Author , Publisher
1. Electromagnetic Wave : Jordan and Balmain : PHI And Radiation System
2. Electromagnetics : Kraus : T.M.H.
3. Telecommunications : Fraser
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3 2 0
Purpose This course is aimed at to provide a comprehensive treatment of the analysis and design of control systems so as to empower the students with knowledge which is sufficient to help them understand and analyse the practical problems in industry. Instructional
Objectives At the end of this course, the students should :
1. be familiar with the basic concepts of control systems.
2. Be able to formulate the equations of linear electrical and non-electrical systems and establish analogies between them.
3. Derive characteristics equ. of a given system.
4. Be able to perform time-Domain and frequency domain analysis of systems.
5. Be able to determine stability of any given system.
6. Understand the importance of compensating networks and their design.
7. Be familiar with necessary control components.
Contents
1. Introduction Concepts Plant, Systems Servomechanism, regulating systems, disturbances, Open loop control system, closed loop systems, linear and non-linear systems, time variant & invariant, continuous and sampled data control systems, Block diagrams, some illustrative examples.
2. Modelling Formulation of equation of Linear electrical, mechanical, thermal Pneugmatic and hydraulic system, electrical, Mechanical analogies. Use of Laplace transform, Transfer function, concepts of state variable modelling. Block diagram representation signal flow graphs and associated algebra, characteristics equation.
3. Time Domain Analysis Typical test - input signal, Transient response of the first and second order systems. Time domain specifications, Dominant closed loop poles of higher
4. order systems. Steady state error and coefficients. Pole-zero location and stability. Routh-Hurwitz Criterion.
4. Root Locus Technique: The extreme points of the root loci for positive gain. Asympotes to the loci, breakway points, intersection with imaginary axis, location of roots with given gain & sketch of the root locus plot.
5. Frequency Domain Analysis: Closed loop frequency response, bodeplots, stability and loop transfer function. Frequency response specification relative stability, relation between time and frequency response for second order systems. A and N-circles, Log. Magnitude versus phases angle plot. Plot Nyquist criterion.
6. Compensation: Necessity of compensation series and parallel compensations, Compensating network, application of lag and lead compensation.
7. Control Components: Error detectors- potentiometers and synchronous, servo motor A.C. and D.C. technogenerators, Magnetic amplifiers.
1. Modern Control Engg. by K. Ogata, Prentice Hall, New Delhi, 1974.
2. Control System Components by J.F. Gibsen, Mcgraw Hill, 1963.
3. Automatic Control System by B.C. Kuo, Prentice Hall, 3rd Ed., 1978.
4. Control System Engineering by I.J. Nagrath & Gopal, Wiley Eastern Ltd., New Delhi, 1975.
EC-210 LAB-IV ANALOG
ELECTRONICS
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EC-212 Lab V ( Digital Electronics)
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1. (a) Verification of the truth tables of TTL gates, e.g., 7400, 7402,7404, 7408, 7432,7486.
(b) Design, fabrication and testing of low frequency TTL clocks using NAND gates.
2. (a) Verification of the truth table of the Multiplexer 74150.
(b) Verification of the truth table of the De-Multiplexer 74154.
3. Design and verification of the truth tables of half adder and full adder circuits using gates 7483.
4. Study and verification of the operations of ALU 74181 with regards to addition / subtraction / comparison.
5. Design fabrication and testing of differentiator and integrator circuits using OP AMP.
6. Design fabrication and testing of clipper and clamper circuits using OP AMP.
7. Design fabrication and testing of
(a) Monostable multivibrator of t=0.1 msec.approx.) using 74121/123. Testing for both positive and negative edge triggering, variation in pulse with and retriggering.
(b) Free running multivibrator at 1 KHz and1 Hz using 555 with 50% duty cycle. Verify the timing from theoretical calculations. 8. Design fabricate and test a switch depouncer using 7400.
9.(a) Design and test of an S-R flip-flop using TOR/NAND gates.
(b) Verify the truth table of a J-K flip-flop (7476)
(c) Verify the truth table of a D flip-flop (7474) and study its operation in the toggle and asyneronous modes.
10. Operate the counters 7490, 7493 and 74192. Verify the frequency division at each stage. With a low frequency clock (say 1 Hz) display the count on LEDs.
11. (a) Verify the truth table of decoder driver 7447 / 7448. Hence operate a 7 segment LED display through a counter using a low frequency clock.
(b) Repeat the above with the BCD to Decimal decoder 7442 and an array of LEDs.
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At least eight of the following experiments are to be performed :
EC-301
ANALOG
COMMUNICATION SYSTEMS
Base Band Signals and Systems: Introduction,
Elements of communication system, Modulation & Demodulation, Mixing; Linear
& Nonlinear, need of modulation,
types of modulation systems, basic transmission signals.
Analog Modulation Techniques: Introduction, theory of amplitude
modulation; AM power calculations, AM current calculations, AM modulation with
a complex wave, theory of frequency modulation; mathematical analysis of FM,
spectra of FM signals, narrow band of FM, Wide band FM, Theory of phase
modulation, phase modulation obtained from frequency modulation, comparison of
AM & FM, Comparison of PM & FM.
AM Transmission: Introduction,
generation of Amplitude Modulation, Low level and high level modulation, basic
principle of AM generation; square law modulation, Amplitude modulation in
amplifier circuits, suppressed carrier AM generation (Balanced Modulator) ring
Modulator, Product Modulator/balanced Modulator.
AM Reception: Receiver Parameters; Selectivity,
Sensitivity, Fidelity, Tuned Ratio Frequency (TRF) Receiver, Super heterodyne
Receiver; Basic elements of AM super-heterodyne Receiver; RF Amplifier,
Neutralization of RF Amplifiers, Class of operation of RF Amplifiers, High
power RF Amplifiers, Image Frequency Rejection, Cascade RF Amplifier, methods
of increasing Bandwidth, frequency Conversion and Mixers; Additive Mixing, Bipolar
Transistor Additive Mixer, self exicted Additive Mixers, multiplicative mixing,
Multiplicative Mixer using dual gate MOSFET, Tracking & Alignment, IF Amplifier, AM detector; square
law detector, Envelope or Diode detector, AM detector with AGC, Distortion in
diode detectors, AM detector Circuit using
Transistor, Double hetro-dyne receiver, AM receiver using a phase locked
loop (PLL), AM receiver characteristics.
FM Transmission: FM allocation
standards, generation of FM by direct method, varactor diode Modulator, Cross
by Direct FM Transmitter, Phase-Locked-Loop Direct FM Transmitter, Indirect
generation of FM; Armstrong method, RC phase shift method, Frequency stabilised
reactance FM transmitter.
FM Reception: Frequency
demodulators, Tuned circuit frequency discriminators; Slope Detector, Balance
Slope Detector, Foster Seeley discriminator, Ratio Detector, FM detection using
PLL, Zero crossing detector as a Frequency Demodulator, quadrature FM demodulator, pre emphasis and
de emphasis, limiter circuits, FM Capture effect, FM receiver, FM stereo transmission and reception, Two way
FM Radio Transmitter and Receiver.
SSB Transmission: Introduction, Single Side band systems,
AM-SSB; Full carrier, Suppressed carrier , reduced carrier, Independent side
band, and Vestigial side band,
Comparison of SSB Transmission to
conventional AM, Generation of SSB; Filter method, Phase Shift Method, Third
Method.
SSB Reception: SSB Product Demodulator, Balanced
Modulator as SSB Demodulator, Single Side band receivers; Single side band BFO
Receivers, Coherent Single side band BFO
Receivers, Single Side band Envelop detection receiver, Multi Channel Pilot
Carrier SSB Receiver.
Pulse Modulation Transmissions and Reception: Introduction, Sampling Theorem Pulse
Amplitude Modulation (PAM), Natural PAM Frequency Spectra for PAM , Flat-top
PAM, Sample and hold circuits, Time
division Multiplexing, PAM Modulator Circuit, Demodulation of PAM
Signals, Pulse Time Modulation (PTM); Pulse Width Modulation(PWM), Pulse Position
Modulation (PPM), PPM Demodulator.
Recommended
Text Books:
1.
Wayne Tomasi,
“Electronic Communication System Fundamentals through Advance” 4th
Edition Pearson Education.
2.
Symon Hykens
“Analog Communication Systems” John Wiley & Sons .
3.
Taub &
Schilling “Principles of Communication System” Tata Mc-Graw Hill.
4.
Roody Coolean
“Electronic Communication Systems” PHI.
ME-251 TOTAL QUALITY MANAGEMENT
Detailed Contents
1. Quality
and Total Quality Management; Excellence im manufacturing/service, factors of excellence,
relevance of TQM.
2. Concept
and definition of quality; total quality control (TQC) and Total Quality
Management (TQM), salient features of TQC and TQM. Total Quality Management
Models, benefits of TQM.
3.
Just-in-time (JIT): Definition: Elements, benefits, equipment layout for JIT
system, Kanban system MRP (Material Requirement planning) vs JIT system, Waste
elimination, workers involvement through JIT: JIT cause and effect chain, JIT
implementation.
4.
Customer: Satisfaction, data collection and complaint, redressal mechanism.
5.
Planning Process: Policy development and implementation; plan formulation and
implementation.
6. Process
Management: Factors affecting process management, Quality function development
(QFD), and quality assurance system.
7. Total
Employees Involvement (TEI): Empowering employees: team building; quality
circles; reward and Recognition; education and training, Suggestion schemes.
8.
Problems solving Defining problem; Problem identification and solving process;
QC tools.
9.
Benchmarking definition, concept, process and types of benchmarking.
10.
Quality Systems: Concept of quality system standards: relevance and origin of
ISO 9000; Benefits; Elements of ISO 9001, ISO 9002, ISO 9003.
11.
Advanced techniques of TQM: Design of experiments: failure mode effect
analysis: Taguchi methods
BOOKS:
1. Total Quality Management by sunder Raju, Tata Mcgraw Hill
2. TQM for engineers by M.Zairi, Aditya Books
3. Total Quality Management Handbook by J.L. Hradeskym
MCGraw Hill
4. ISO 9000 quality System by Dalela and Saurabh, standard
Publishers
L T P
3 1 0
EC-303
Antenna
and Wave Propagation
1.
Introduction:Physical concept of
Radiation in single wire, two wire, and dipole,
Current Distribution on a thin wire antenna.
2.
Fundamental Parameters of Antenna: Radiation
Pattern, Radiation Power Density, Radiation intensity, Directivity, Gain,
Antenna efficiency, Beamwidth, Bandwidth, Polarisation, Antenna Input
Impedance, Elementary idea about self and mutual impedance, Radiation efficiency,
Effective aperture, Antenna Temperature.
3.
Linear Wire Antennas: Retarded
potential, Infinitesimal dipole, Current distribution of short dipole and half
wave dipole, Far-field, Radiating near-field and reactive near-field region,
Monopole and Half wave dipole.
4.
Antenna Arrays: Array of two point
sources, Array factor, n-element linear array with uniform amplitude and
spacing, Analysis of Broadside array, Ordinary end-fire array, Hansen-woodyard
end fire array, n-element linear array with non-uniform spacing, , Analysis of
Binomial and Dolph-Tschebyscheff array, Scanning Array, Superdirective array.
5.
Aperture Antennas: Field
Equivalence principle, Rectangular and circular aperture antennas, Horn
antenna, Babinet’s Principle, Slot Antenna, Reflector antenna.
6.
Ground wave Propagation: Friis Free space equation,
,Reflection from earth’s surface, Surface and Space wave propagation for
vertical and horizontal dipole, Field strength of Space wave, Range of space
wave propagation, Effective earth’s radius, Effect of earth imperfections and
atmosphere on space wave propagation, Modified refractive index, Duct
propagation, Tropospheric propagation.
7.
Ionospheric Propagation: Structure of ionosphere, propagation of
radio waves through ionosphere, Refractive index of ionosphere, Reflection and
refraction of waves by ionosphere, Critical frequency, Maximum usable
frequency, Optimum working frequency, Lowest usable high frequency, virtual
height, Skip Distance, Effect of earth’s magnetic field.
1. Antenna Theory , Balanis C.A
,John Wiley & sons.
2. Electromagnetics and radiating
systems, Jordan E.C.,PHI.
Reference Books:
1. Antenna and radio wave propagation, Collins
R.E., McGraw Hill.
2. Antenna Theory , Krauss J.D.,McGraw Hill.
L T P
3 1 0
EC-305
LINEAR
INTEGRATED CIRCUITS
DIFFERENTIAL AND CASCODE AMPLIFIERS: Introduction, Differential Amplifier, Differential
Amplifier Circuit Configuration, Dual Input-Balanced output Differential
Amplifier, Dual Input-Unbalanced output Differential Amplifier, Single
Input-Balanced output Differential Amplifier, Single Input-unbalanced output
Differential Amplifier with their DC and AC analysis, Differential Amplifier
with swamping resistors, Constant current bias, Current Mirror, Cascaded
differential Amplifier Stages, Level Translator, CE-CB configuration.
INTRODUCTION TO OPERATIONAL AMPLIFIERS: Block diagram of a typical Op-Amp, Schematic symbol,
integrated circuits and their types, IC package types, Pin Identification and
temperature range, Interpretation of data sheets, Overview of typical set of
data sheets, Characteristics and performance parameters of and Op-Amp, Ideal
Op-Amp, Equivalent circuit of an Op-Amp, Ideal voltage transfer curve, Open
loop configurations : Differential, Inverting & Non Inverting. Practical
Op-Amp: Input offset voltage, Input bias current, Input offset current, total
output offset voltage, Thermal drift, Effcet of variation in power supply
voltages on offset voltage, Change in Input offset voltage and Input offset
current with time, Temperature and supply voltage sensitive parameters, Noise,
Common Mode configuration and common mode rejection Ratio.
NEGATIVE FEEDBACK IN OP-AMPS: Block diagram representation of feedback
configurations, Voltage-series feedback Amplifier, Voltage shunt feedback
amplifier, Differential amplifiers with one op-amp, two op-amps and three
op-amps.
FREQUENCY RESPONSE OF AN OP-AMP: Frequency response, Compensating Networks, Frequency
response of Internally compensated Op-Amps, Frequency response of Non-compensated
Op-amps, Closed loop frequency response, Slew rate, causes of slew rate and its
effect on applications
APLICATIONS OF OP-AMP: DC and AC amplifiers, Peaking Amp, Summing, Scaling
and Averaging Amp, Instrumentation Amplifier, V to I and I and to V converter,
Log and Antilog Amp, Integrator, Differentiator. Active filters: First order LP
Butterworth filter, Second order LP Butterworth filter, First order HP
Butterworth filter, Second order HP Butterworth filter, Higher order filters,
Band pass filter, Band reject filters, All pass filter, Phase shift oscillator,
Wein bridge oscillator, Quadrature oscillator, Square wave generator,
Triangular wave generator, Sawtooth wave generator, Voltage controlled
oscillator, Basic comparator, Zero crossing detector, Schmitt trigger, window
detector, V to F and F to V converters, A to D and D to A converters, Peak
Detector, Sample and Hold Circuit.
SPECIALIZED IC APPLICATIONS: 555 Timer: Pin configuration, Block diagram, application of
555 as Monostable and Astable Multivibrator.
Phase Lock Loops: Operating principles & applications of 565PLL
Voltage Regulators: Fixed voltage regulators, Adjustable voltage
regulators, Switching Regulators.
Recommended Text Book:
1. Op Amps & Linear Integrated
circuits by Ramakant Gayakwad.
L T P
3 1 0
Microprocessor system
peripheral and interface: Introduction to interfacing, 8155, 8255,8279,8254,
DMA controller, programmable interrupt controller, USART interfacing with 8085
MPU.
1. Microprocessor Architecture, Programming and
application with 8085 by Gaonkar
2. Introduction to Microprocessor by B. Ram.
3. Microprocessor Interfacing, programming and hardware
by D. V. Hall
L T P
3 1 0
EC-309
PULSE AND DIGITAL SWITCHING CIRCUITS
Linear Wave Shaping:
High Pass circuits, Response
to Standard waveforms, Differentiator, Double differentiation, Low pass
circuits, response to standard waveforms, Integrator, Attenuator, RLC circuits,
Ringing circuits.
Wide band Amplifiers:
Frequency response of an
amplifier, Short circuit current gain, Gain & Band width consideration,
Compensation, Shunt compensation, Low frequency compensation, Distributed
amplifiers.
Switching Characteristics of devices: Steady
state and transient behaviors of electronic (Diode & transistor) Switches,
Dynamic analysis of switches, Charge storage phenomena, Switching
characteristics, Delay time, Rise time, Storage time and fall time, Use of
Schotkey diode for reducing storage time. Behavior of MOS transistor as
switch.
Non- Linear Wave shaping: Realization
of clipping circuits (diode &
transistor), comparators, champing circuits and sweep generators.
Multivibrators: Realization of astable, monostable, bistable, multivibrators
using transistors, unsymmetrical, symmetrical
triggering, Schmitt trigger circuits.
Books Recommended:
1.
Pulse and
Digital Switching Circuits – Milliman, Taub
2.
Pulse and
Digital Switching Circuits – G. K. Mithal
L T P
0 0 2
EC-311
Lab-VII Analog
Communication Systems
LIST OF EXPERIMENTS:
1.
To obtain Amplitude modulated Envelop and determine depth of modulation
2.
To study envelop detector for demodulation of AM
signal and observe diagonal peak clipping effect.
3.
Frequency modulation using voltage controlled
oscillator.
4.
Generation of DSB-SC signal using balanced
modulator.
5.
Generation of single side band signal
6.
To generate a FM Signal and measure Depth of
modulation.
7.
Detection of FM Signal using PLL.
8.
To Study Super heterodyne AM receiver and
measurement of receiver parameters viz. sensitivity, selectivity &
fidelity.
9.
Familiarisation of PLL, measurement of lock and
capture range, frequency demodulation, frequency multiplier using PLL.
10. Sampling Theorem
& Reconstruction of Signal from its lsamples using Natural Sampling, Flat
Top Sampling & Sample & Hold Circuits.
11. To study
the circuit of PAM modulator & Demodulator
12. To study
the circuit of PWM modulator & Demodulator
13. To study
the circuit of PPM modulator & Demodulator
L T P
0 0 2
EC313
LAB VIII: LINEAR INTEGRATED CIRUITS
List
Of Experiments:
1.
To study
differential amplifier configurations.
2.
To measure the
performance parameters of an Op amp.
3.
Application of
Op amp as Inverting and Non Inverting amplifier.
4.
To study
frequency response of an Op Amp
5.
To use the
Op-Amp as summing, scaling & averaging
amplifier.
6.
To use the
Op-Amp as Instrumentation amplifier
7.
Design
differentiator and Integrator using Op-Amp.
8.
Application of
Op Amp as Log and Antilog amplifier
9.
Design Low pass,
High pass and Band pass 1st order butterworth active filters using
Op Amp.
10.
Design Phase
shift oscillator using Op-Amp.
11.
Design Wein
Bridge oscillator using Op-Amp.
12.
Application of
Op Amp as Sawtooth wave generator.
13.
Application of
Op Amp as Zero Crossing detector and window detector.
14.
Application of
Op Amp as Schmitt Trigger.
15.
Design a series
regulators with an error amplifier to provide an output voltage of 5 volt at a
load current of 1.5 Amp. Use a 741 Op-Amp and specify the Zener voltage
necessary transistor gain and the maximum power dissipation of the transistor.
16.
Design a delay
circuit using 555.
17.
To examine the
operation of a PLL and to determine the free running frequency, the capture
range and the lock in range of PLL.
L T P
0 0 2
EC315
Lab IX
Microprocessor Lab.
List Of Experiments:
L T P
3 1 0
EC-302
MICROWAVE
AND RADAR ENGINEERING
Microwave
Tubes: Limitations of conventional
tubes, construction, operation and properties of Klystron Amplifier, reflex Klystron, Magnetron,
TWT, BWO, Crossed field amplifiers.
Microwave
Solid State Devices: Limitation of conventional solid state devices at MW,
Transistors(Bipolar, FET) , Diodes(Tunnel, Varactor, PIN), Transferred Electron
Devices( Gunn diode), Avalanche transit time effect ( IMPATT, TRAPATT, SBD)
Microwave
Components: Analysis of MW components using s-parameters,
Junctions ( E, H, Hybrid), Directional coupler, Bends and Corners, MW posts,
S.S. tuners, Attenuaters, Phase shifter, Ferrite devices( Isolator, Circulator,
Gyrator), Cavity resonator, Matched termination.
Microwave
Measurements: Power measurements
using calorimeters and bolometers, Measurement of SWR, Frequency and
wavelength, Microwave bridges.
Introduction
to Radar Systems: Basic
Principle: Block diagram and operation of Radar, Radar
range Equation, PRFs and Range Ambiguities, Applications of Radar.
Doppler
Radars: Doppler determination of velocity, CW radar
and its limitations, FMCW radar, Basic principle and operation of MTI radar,
Delay line cancellers, Blind speeds and staggered PRFs.
Scanning
and Tracking Techniques: Various scanning techniques(Horizontal,
vertical, spiral, palmer, raster, nodding), Angle tracking systems(Lobe
switching, conical scan, monopulse), Range tracking systems,
Doppler(velocity)tracking systems.
Text books:
Reference Books:
L T P
Digital Transmission: Introduction, Advantages
of Digital Transmission, Pulse
Code Modulation; PCM Sampling, Sampling Rate, Aliasing, quantisation error,
Uniform and Non uniform quantization, Dynamic Range, Coding efficiency, A law & μ law companding, Bandwidth
of PCM, Block diagram of PCM system, Delta Modulation, Continuously variable
Slope Delta Modulator (CVSDM) or Adaptive Delta Modulation, Differential Pulse
Code Modulation, Intersymbol Interference, Eye Patterns, Signal power in
binary digital signals.
Digital Carrier Line Encoding & Multiplexing Techniques: Line Coding
& its properties. NRZ & RZ types, signalling format for unipolar,
Polar, bipolar (AMI) & Manchester coding and their power spectra (No
derivation), HDB and B8ZS signalling,
Fundamentals of time division multiplexing, T1 Digital Carrier system,
Synchronization and Signaling of T1, TDM, PCM hierarchy, North-American Digital
Hierarchy; T1 to T4 PCM TDM system (DS1 to DS4 signals), Bit versus word
interleaving, Statistical TDM, Codecs & Combo Chips
Digital Carrier Modulation &
Demodulation Techniques: Introduction, Information capacity, Shannon Limit for
Information capacity, Bit Rate, Baud & M-Ary Encoding, Amplitude Shift
Keying (ASK), ASK Spectrum, ASK Modulator, Coherent ASK Detector, Non-coherent
ASK Detector, Frequency Shift Keying (FSK), FSK Bit Rate and Baud, Bandwidth and Frequency Spectrum of FSK, FSK
Transmitter, Non-coherent FSK Detector,
Coherent FSK Detector, FSK Detection Using PLL, Binary Phase Shift Keying,
Binary PSK Spectrum, BPSK Transmitter,
Coherent PSK Detection, Quadrature Phase Shift Keying (QPSK), QPSK
Demodulator, Offset QPSK, p/4 QPSK,
Comparison of conventional QPSK, Offset QPSK and p/4 QPSK, M-Ary BPSK e.g. 8 PSK & 16
PSK, Quadrature Amplitude Modulation (QAM); 8 QAM & 16 QAM transmitters and
receivers, Band Width efficiency, Carrier Recovery; Squaring Loop & Costas
Loop, Differential PSK, DBPSK transmitter and receiver, Constant Envelop
Modulation; Minimum Shift Keying
(MSK) & Gaussian Minimum Shift
Keying (GMSK)
Simulation of above systems using ComSim and Matlab.
2.
Introduction to Communication Systems, third
edition, by F. G. Stremler, Addison-Wesley, 1990.
3.
Digital Communication, E.A. Lee and D.G.
Messerschmitt, , Kluwer Academic Publishers,1994
4.
Digital Communication Receivers, H. Meyr, M.
Moeneclaey, S.A. Fechtel, Wiley, 1998
5.
Digital Communications/Mc Graw Hill 2nd Ed,
ProakisJ.J.
L T P
Real
World Interfacing: LCD, ADC and
sensors, Stepper motor, keyboard, DAC and external memory
Introduction to latest micro controllers such as ARM processors and its
applications.
Recommended Text
Books:
1)
The 8051
Microocntroller and embedded Systems by: - Ali Mazidi
2)
Am embedded
software primer, David e Simon, Pearson Education
3)
Embedded system
design by Frank vahid and Tony Givargus
L T P
3 1 0
Definition, scope and importance
(2 Lectures)
Need for public awareness.
Unit 2
: Natural Resources :
Renewable and non-renewable
resources :
Natural resources and associated problems.
a) Forest resources : Use and over-exploitation, deforestation, case studies. Timber extraction, mining, dams and their effects on forests and tribal people.
b) Water resources : Use and over-Utilization of surface and ground water, floods, drought, conflicts and water, dams-benefits and problems.
c) Mineral resources : Use and exploitation, environmental effects of extracting and using mineral resources, case studies.
d) Food resources : World food problems, changes caused by agriculture and overgrazing, effects of modern agriculture, fertilizer-pesticide problems, water logging, salinity, case studies.
e) Energy resources : Growing energy needs, renewable and non renewable energy sources, use of alternate energy sources. Case studies.
f) Land resources : Land as a resource, land degradation, man induced landslides, soil erosion and desertification.
· Role of an individual in conservation of natural resources.
· Equitable use of resources for sustainable lifestyles.
· Concept of an ecosystem.
· Structure and function of an ecosystem.
· Producers, consumers and decomposers.
·
Energy flow in the ecosystem.
·
Ecological succession.
·
Food chains, food webs and ecological pyramids.
·
Introduction, types, characteristic features,
structure and function of the following ecosystem :-
a. Forest ecosystem
b. Grassland ecosystem
c. Desert ecosystem
d. Aquatic ecosystems (ponds, streams, lakes, rivers, oceans, estuaries)
(6 lectures)
a. Air pollution
b. Water pollution
c. Soil pollution
d. Marine pollution
e. Noise pollution
f. Thermal pollution
g. Nuclear hazards
· Solid waste Management : Causes, effects and control measures of urban and industrial wastes.
· Role of an individual in prevention of pollution.
· Pollution case studies.
· Disaster management : floods, earthquake, cyclone and landslides.
(8 lectures)
(7 lectures)
L
T P
4 1 2
EC-308
Digital
Signal Processing
Introduction : Basic elements of DSP system,Advantages and
disadvantage of DSP over analog processing,Application of Digital signal
processing.
Discrete
time Signal and Systems: Elementary
discrete time signals, Manipulation of discrete time signals, Classification of
discrete time LTI system using convolution sum method, properties of LTI
system, Analysis of LTI system using Difference equqtion.
Z-Transform:
Direct Z-Transform and importance of
ROC, properties of Z-Transform, Inverse Z-transform methods, Rational
Z-transform function representation, system function of LTI systems in Z-domain, one sided Z
–Transform.
Discrete
Fourier Transform: Frequency domain
sampling and reconstruction of discrete
time signal, DFT as linear transformation, properties of DFT, use of DFT in
linear filtering, Fast fourier transform(FFT),decimation in time ,decimation in
frequency algorithm,Goertzel algorithm.
Implementation
of Discrete time system: Structures
for realisation of discrete time system, Direct form,cascade form, parallel
form and lattice form structures for FIR and IIR systems, Representation of
numbers, Quantisation of filter coefficients.
Design
of digital filters: Fundamentals of
filter design, Design of FIR filter using Window method,Design of IIR filter by
Impulse invariance, bilinear transformation and matched Z transform
technique.Analog amd digital domain frequency transformation.
DSP
processor architecture fundamentals: Study of ADSP and TMS series of processor
architectures.
Recommended
Text book:
1.
Digital Signal
Processing : Proakis and Manolakis ; Pearson education .
Recommended
Reference Books:
1.
Digital signal
processing : ifeachor: pearson education.
2.
Digital signal
processing : salivahanan, vallavaraj, and gananpriya; TMH.
Websites:
(i)
www.ti.com
(ii)
www.analog.com
(iii)
www.bdti.com
(iv)
www.bores.com
Department Elective-I
L T P
3 1 0
DE1.1
Cellular
& Mobile Communication
Introduction to Cellular Mobile Systems: A basic cellular system, performance
criteria, uniqueness of mobile radio environment, operation of cellular
systems, planning a cellular system, analog & digital cellular systems.
Cellular Wireless Communication Systems: Second
generation cellular systems: GSM specifications and Air Interface -
specifications of various units, 2.5 G systems: GPRS/EDGE specifications and
features, 3G systems: UMTS & CDMA 2000 standards and specifications
Elements of Cellular Radio Systems Design: General description of the problem,
concept of frequency reuse channels, co-channel interference reduction factor,
desired C/I from a normal case in an omni directional antenna system, cell
splitting, consideration of the components of cellular systems.
Interference: Introduction to co-channel interference,
real time co-channel interference, co-channel measurement design of antenna
system, antenna parameter and their effects, diversity receiver in co-channel
interference – different types.
Cell Coverage for Signal & Traffic: General introduction, obtaining the
mobile point to point mode, propagation over water or flat open area, foliage
loss, propagation near in distance, long distance propagation, point to point
prediction model- characteristics, cell site, antenna heights and signal
coverage cells, mobile to mobile propagation.
Cell Site Antennas and Mobile Antennas: Characteristics, antenna at cell site,
mobile antennas, Frequency Management and Channel Assignment, Frequency
management, fixed channel assignment, non-fixed channel assignment, traffic
& channel assignment.
Hand Off, Dropped Calls:
Why hand off, types of handoff and their characteristics, dropped
call rates & their evaluation.
Operational Techniques:
Parameters, coverage hole filler, leaky feeders, cell splitting
and small cells, narrow beam concept.
Recommended Text Books:
1. Mobile Cellular Telecommunications; 2nd ed.; William, C Y Lee
McGraw Hill
2. Wireless and Digital Communications; Dr. Kamilo Feher (PHI)
3. T.S. Rappaport, “Wireless
Communication, principles & practice”, PHI, 2001.
L T P
3 1 0
DE-1.2
MICROELECTRONICS
INTRODUCTION: Advantages of IC’s, General
classification of IC’s(Linear/Digital IC’s , Monolithic/ Hybrid IC’s), Basic IC
fabrication steps
CRYSTAL GRTOWTH AND EPITAXY: Starting material for formation of
crystal, Horizontal Bridgeman Method,
Czochralski growth, Distribution of dopants, Zone refining, Silicon Float Zone
process, Si-Wafer preparation, Epitaxial growth, Techniques used for epitaxial
growth(LPE,VPE,MBE)
SILICON OXIDATION: Thermal oxidation process
(Kinetics of growth , Thin oxide growth), Effect of impurities on the oxidation
rate, Preoxidation Cleaning, Various oxidation techniques, Masking properties
of SiO2 , IV
PHOTOLITHOGRAPHY AND ETCHING, Pattern generation/Mask making, Contact
and Proximity printing, Photoresistsl, Photolithography Process(Lift off
technology , Fine line photolithography), Wet/Dry etching, Reactive Plasma
etching techniques and applications
DIFFUSION AND ION IMPLANTATION: Basic diffusion process(Diffusion equation,
Diffusion profiles), Extrinsic diffusion, Lateral Diffusion, Ion Implantation
Process (Ion distribution , Ion Stopping), Implant Damage and Annealing process
(Furnace and RTA), VI IC PACKAGING,
Isolation Techniques, Testing of the Chip, Wire Bonding techniques, Flip Chip
technique, Various Packaging methods and Materials, VII FABRICATION OF MONOLITHIC COMPONENTS,
Fabrication of Diodes, Resistors, capacitors and inductors, Fabrication of BJT and FET, Fabrication of MOS Devices ,
CMOS fabrication techniques(n-well and
p-well process sequences), Introduction to MEMS.
Recommended
Text Books:
1.
Fundamental of
Semiconductor Fabrication:Gray S.May and Simon M.Sze
2.
VLSI Technology
: Sze.
Reference
Books:
1.
Microelectronics:
Jacob and Millman
L T P
3 1 0
DE-1.3
HUMAN RESOURCE MANAGEMENT
Introduction: Introduction to Human Resource Management and its
definition, functions of Human Resource Management & its relation to other
managerial functions. Nature, Scope and Importance of Human Resource Management
in Industry, Role & position of Personnel function in the organization.
Procurement and
Placement: Need for Human Resource
Planning; Process of Human Resource Planning; Methods of Recruitment;
Psychological tests and interviewing; Meaning and Importance of Placement and
Induction, Employment Exchanges (Compulsory Notification of vacancies) Act
1959, The Contract Labour (Regulation & Abolition) Act 1970.
Training & Development: Difference between training and Development; Principles of Training; Employee Development; Promotion-Merit v/s seniority Performance Appraisal, Career Development & Planning.
Job
analysis & Design: Job Analysis:
Job Description & Job Description, Job Specification.
Job Satisfaction: Job
satisfaction and its importance; Motivation, Factors affecting motivation,
introduction to Motivation Theory; Workers ' Participation, Quality of work
life.
The
Compensation Function: Basic
concepts in wage administration, company’s wage policy, Job Evaluation, Issues
in wage administration, Bonus & Incentives, Payment of Wages Act-1936, Minimum Wages Act-1961
Integration: Human
Relations and Industrial Relations; Difference between Human Relations and
Industrial Relations, Factors required for good Human Relation Policy in
Industry; Employee Employer relationship Causes and Effects of Industrial
disputes; Employees Grievances & their Redressal, Administration of
Discipline, Communication in organization, Absenteeism, Labour Turnover,
Changing face of the Indian work force and their environment, Importance of
collective Bargaining; Role of trader unions in maintaining cordial Industrial
Relations.
Maintenance: Fringe &
retirement terminal benefits, administration of welfare amenities, Meaning and
Importance of Employee Safety, Accidents-Causes & their Prevention, Safety
Previsions under the Factories Act 1948; Welfare of Employees and its
Importance, Social security, Family Pension Scheme, ESI act 1948, Workmen’s
Gratuity Act 1972, Future challenges for
Human Resource Management.
Recommended Text Books:
1. T.N.Chhabra- Human
Resource Management (Dhanpat Rai & Co.)
Recommended Reference
Books:
1. Lowin B. Flippo - Principles of personnel Management (Mc
Graw-Hill)
2. R.C. Saxena - Labour Problems and social
welfare (K.Math & Co.)
3. A Minappa and M. S. Saiyada - Personnel
Management (Tata Mc. Graw-Hill)
4. C.B. Mamoria
- Personnel Management (Himalaya Publishing House, Bombay)
5. T.N.
Bhagotiwal - Economics of Labour and Industrial Relations (Sahitya Bhawan
Agra)
L T P
3 1 0
DE-1.4
VIRTUAL INSTRUMENTATION
Review of
Virtual Instrumentation: Historical perspective, Need of VI, Advantages of VI,
Define VI, block diagram & architecture of VI, data flow techniques,
graphical programming in data flow, comparison with conventional programming.
Programming
Techniques: VIS
& Sub VIS, loops & charts, arrays, clusters, graphs, case &
sequence structures, formula modes, local & global variables, string &
file Input.
Data
Acquisition basics: ADC, DAC, DIO, Counters & timers, PC Hardware structure, timing,
interrupts, DMA, Software and Hardware Installation.
Common
Instrument Interfaces: Current loop, Rs 232C/Rs 485, GPIB, System basics, interface basics:
USB, PCMCIA, VXI, SCXI, PXI etc, networking basics for office & industrial application VISA
& IVI, image acquisition & processing, Motion Control.
Use of
Analysis Tools: Fourier transfo+rms, Power spectrum, Correlation methods, windowing
& flittering.
Application
of VI: Application
in Process Control projects, Major equipments-Oscilloscope, Digital Multimeter,
120 MHz Pentium Computers, Labview Software, Study of Data Acquisition &
Control using Labview ® Virtual instrumentation for an Innovative Thermal
Conductivity Apparatus to measure the Thermal Conductivity Apparatus- to
measure the conductivity of non Newtonian fluids while they are subjected to
sharing force.
Recommended
Text Books:
L T P
3 1 0
DE-1.5
NEURAL NETWORKS AND FUZZY LOGIC
Neural
Networks characteristics: History of
development in neural Networks Principles, Artificial Neural Net terminology,
Model of a neuron, topology, learning types of learning supervised
unsupervised, re-inforcement learning.
Basic Hopfield
Model: the perceptron, linear
separability, Basic learning laws : Hebb's rule, Delta rule, Widrow & Hoff
LMS learning rule, correlation learning rule, instar and outstar learning
rules.
Unsupervised
learning: competitive learning,
K-means clustering algorethm, Kohonen's feature maps.
Radial Basis: Function neural networks, basic learning Laws in
RBF nets, Recurrent networks, recurrent back propagation, Real Time Recurrent
learning algorithm. Introduction to counter Propagation networks, CMAC
networks, ART networks.
Applications
of neural nets such as pattern recoginition: optimization, associative memories, vector quantization,
control,Applications in speech and decision making.
Fuzzy Logic : Basic concepts of Fuzzy Logic, Fuzzy vs Crisp set,
Linguistic variables, membership functions, operations of fuzzy sets, fuzzy
IF-THEN rules, variable inference, techniques, defuzzication techniques, basic
fuzzy inference algorithm, Applications of fuzzy logic, Fuzzy system design,
Implementation of fuzzy system, Useful tools supporting design.
Recommended Text
Books:
1.
Fuzzy Systems
Design Principles, Building Fuzzy IF-THEN Rule Bases By Riza C. Berkin &
Trubatch, JeeeBcss
2.
Vegna Narayanan
- Artificial Neural Networks
3.
Bart Kosko -
Neural Networks & Fuzzy Logic
4.
Simon Haykin -
Neural Networks
L T
P
0 0
2
EC-310
LAB X: MICROWAVE Engineering
List of Experiments:
1.
Study of
microwave components and instruments.
2.
Measurement of
crystal characteristics and proof of the square law characteristics of the
diode.
3.
Measurement of
klystron characteristics. 4. Measurement of VSWR and standing wave ratio.
4.
Measurement of
Dielectric constants.
5.
Measurement of
Directivity and coupling coefficient of a directional coupler.
6.
Measurement of Q
of a cavity.
7.
Calibration of
the attenuation constant of an attenuator.
8.
Determination of
the radiation characteristics and gain of an antenna.
9.
Determination of
the phase-shift of a phase shifter.
10. Determination of the standing wave pattern on a
transmission line and finding the length and position of the short circuited
stub.
L T P
0 0 2
EC-312
Lab-XI Digital
Communication
LIST OF
EXPERIMENTS
1.
Study of
Time Division Multiplexing system.
2.
Study of pulse code modulation and demodulation.
3.
Study of delta modulation and demodulation and
observe effect of slope overload.
4.
Study pulse data coding techniques for various
formats.
5.
Data decoding techniques for various formats.
6.
Study of amplitude shift keying modulator and
demodulator.
7.
Study of frequency shift keying modulator and
demodulator.
8.
Study of phase shift keying modulator and
demodulator.
9.
Error Detection & Correction using Hamming
Code
10.
Digital link simulation; error introduction
& error estimation in a digital link using MATLAB (SIMULINK)/ComSim.
L T P
0 0 2
EC-314
Lab XII Micro controller
List
of Experiments:
L T P
0 0 2
EC-316
Lab XIII: Digital Signal Processing using MATLABTM
List
of experiments:
Perform
the following excercises using MATLABTM
1.
To develop
elementary signal function modules (m-files) for unit sample, unit step,
exponential and unit ramp sequences.
2.
To develop
program modules based on operation on
sequences like signal shifting, signal folding, signal addition and signal
multiplication.
3.
To develop
program for discrete convolution and correlation .
4.
To develop
program for finding response of the LTI system described by the difference
equation.
5.
To develop
program for computing inverse Z-transform.
6.
To develop
program for finding magnitude and phase response of LTI system described by
system function H(z).
7.
To develop
program for computing DFT and IDFT .
8.
To develop
program for computing circular convolution.
9.
To develop
program for conversion of direct form realisation to cascade form realisation.
10.
To develop
program for cascade realisation of IIR and FIR filters.
11.
To develop
program for designing FIR filter.
12.
To develop
program for designing IIR filter.
Recommended Book:
LT P
4 1 0
EC-402
Computer
Networks (8th sem)
Data
communication concepts: Digital & Analog, Parallel &
serial,Synchronous & Asynchronous,
Simplex, Half duplex & Full duplex.
Computer
Networks: Introduction, N/W
Topology, Wired N/W Vs wireless N/W. Classification of computer N/W’s- LAN,
MAN, WAN. Internet,Intranet & Extranet.
Protocols
& Protocol suits (eg TCP/IP,
IPX/SPX), Need of Protocols & their
significance in Networking.
N/W
Reference Models:- OSI reference
Model, TCP/IP reference Model, comparison of OSI & TCP/IP Ref Models.
Networking H/W: Ethernet cabling, The NIC, Repeater, Router,
Bridges, Switches, Transcievers, hubs, Cable Modems.
Comminication
Switching Techniques: Circuit Switching,
Packet Switching & Message
switching.
LAN
standards (IEEE 802 PROJECT): Ethernet,
CSMA/CD, Token Ring, Token Bus, & their frame formats. FDDI.
Data
link & N/W layer Services provided to N/W layer, Framing, Data link
control: Flow control, Error Detection, HDLC & SDLC, concept of Routing
& congesition control.
Transport
layer Transport layer Protocols like TCP, UDP, connection Oriented
Transport Protocol, TCP services.
N/W
Protocols: Low level Protocols. SLIP, PPP NETBEUI, High
level Protocols:- IP & IP Addresses, ARP,RARP
.
Traditional
Application: Terminal
Acess:Telnet, File transfer: FTP,
Email: SMTP & MIME & POP3
Modern
Applications: Web Applications :- HTTP. Internet and its
Applications .
Unix
Networking concepts: Introduction to sockets.
L T P
3 1 0
EC-404
Optical
Fiber Communications
1.
Introduction:
Need of Fiber Optic Communications, Evolution of Light wave Systems,
Basic Concepts; Analog & Digital Signals, Channel Multiplexing,
Modulation Formats, Optical Communication
Systems, Light wave System Components; Optical Fibers as a Communication
Channel, Optical Transmitters, Optical Receivers.
2.
Optical Fibers: Geometrical-Optics Description; Step-Index
Fibers, Graded Index Fibers, Wave Propagation; Maxwell’s Equations, Fiber
Modes, Single-Mode-Fibers, Dispersion in Single-Mode Fibers; Group Velocity
Dispersion, Material Dispersion, Wave guide Dispersion, Higher-order
Dispersion, Polarization-Mode Dispersion, Dispersion-Induced Limitations; Basic
Propagation Equation, Chirped Gaussian
Pulses, Limitations on the Bit Rate, Fiber Bandwidth , Fiber Losses;
Attenuation Coefficient, Material Absorption, Rayleigh Scattering, wave guide
Imperfections, Nonlinear Optical effects;
Stimulated Light Scattering, Nonlinear Phase Modulation, Four Wave
Mixing, Fiber Manufacturing; Design Issues, Fabrication Methods, Cables and
Connectors
3.
Optical Transmitters: Basic
Concepts; Emission and Absorption Rates, p-n Junctions, Non
radiative Recombination, Semi conductor
Materials, Light Emitting Diodes; Power-current Characteristics, LED spectrum,
Modulation Response, LED Structures, Semi Conductor Lasers; DFB Lasers, Coupled
Cavity semiconductor Lasers, Tunable Semiconductor Lasers, Vertical Cavity
Semiconductor Lasers, Laser Characteristics, Small & Large Signal Modulation,
Spectral Line width, Source Fiber Coupling.
4.
Optical Receivers:
Basic concepts, p-n Photo Diodes, p-i-n Photo Diodes,
Avalanche Photo Diode, MSM Photo
detector, Receiver Design, Receiver Noise; Noise mechanism, Receiver
sensitivity; Bit error rate, Minimum Receiver Power, Sensitivity Degradation,
Receiver Performance.
5. Light Wave Systems: System Architecture, Loss limited Light wave
systems, Dispersion limited Light wave systems, Power Budget, Long Haul
systems, Sources of Power Penalty; Model Noise, Dispersive Pulse Broadening,
Mode Partition Noise, Frequency Chirping, Reflection Feedback Noise.
6. Multi channel Systems: WDM Light wave systems, Optical TDM Systems,
Subscriber Multiplexing, Code Division Multiplexing.
Text
Books:
1.
Govind P. Agrawal, Fiber Optics Communication Systems
John Wiley & Sons (Asia ) Pte Ltd.
2.
Senior J. Optical Fiber Communications, Principles
& Practice, PHI.
3.
Keiser G., Optical Fiber Communication Mc graw-hill.
L T P
3 1 0
EC-406
VLSI
DESIGN & TECHNOLOGY
Introduction: Introduction
to Computer-aided design tools for digital systems. Hardware description
languages, Introduction to VHDL, Data objects, Classes and data types,
Operators, Overloading, Logical operators. Types of delays, Entity and
Architecture declaration. Introduction to behavioural, dataflow and structural
models.
VHDL Statements: Assignment
statements, sequential Statements and process, Conditional statements, Case
statements, Array and loops, Resolution functions, Packages & Libraries,
Concurrent statements.
Combinational Circuit Design: VHDL
models and simulation of combinational circuits such as Multiplexers, Encoders,
Decoders, Code converters, Comparators, Implementation of Boolean functions etc.
Sequential Circuit Design: VHDL
Models and simulation of sequential circuits, Shift registers, Counters etc.
Design of Microcomputer: Basic
components of a computer, Specifications, Architecture of a simple
Microcomputer system, Implementation of a simple microcomputer system using
VHDL.
Design with CPLDs and FPGAs: Programmable
logic devices : ROM, PLAs, GAL, PEEL, CPLDs and FPGA. Design and implementation
using CPLDs and FPGAs
Recommended Text Books:
1.
IEEE Standard
VHDL Language reference Manual(1993)
2.
Digital Design
& Modelling with VHDL & Synthesis : KC Chang; IEEE Computer Society
Press.
3.
“A VHDL
Primmer”: Bhasker; Prentice Hall 1995
4.
“Digital System
Design using VHDL”:Charles. H. Roth; PWS(1998)
5.
“VDHL-Analysis
& Modelling of Digital Systems”: Navabi Z; McGraw Hill
6.
VHDL-IV
Edition:Perry; TMH(2002)
7.
“Introduction to
Digital Systems”: Ercegovac. Lang & Moreno; John wiley(1999)
8.
Fundamentals of
Digital Logic with VHDL Design: Brown and Vranesic; TMH(2000)
9.
Modern Digital
Electronics-III Edition : R.P Jain;
TMH(2003)
Department Elective II
L T P
3 1 0
DE-2.1
INDUSTRIAL ELECTRONICS
Characteristics
of Selected Devices: Fast recovery diodes, Schottky diode, SCR, gate
trigger and commutation circuits, series and parallel connection of SCRs, Diac,
Triac, UJT, Power MOSFETs.
Controlled
Rectifier: Half wave and full wave with resistive & R-L-E
and resistive-inductive loads. Free-wheeling diode, three phase rectifiers,
Bridge rectifiers -half controlled and fully controlled.