|
|
|
|
|
|
AS201 Applied
Mathematics III
4 2 4
Fourier Series and fourier transforms, and its
properties–Orthogonal functions. Fourier series of even and odd functions.
Parseval's theorem, Laplace Transform – of all standard functions, Periodic
function, inverse laplace transform, application of laplace transform, Complex
Variables – Cauchy Riemann Equations, Mapping – Conformal Mapping &
bilinear mapping, Concept of line integral, Riemann integral, Morera's theorem,
Singularities – Poles, Evaluation of residues, Residue theorem
Text Book
P. N. Wartikar & J. N. Wartilar, “Elements of
Applied Mathematics” (Vol. I & II), Pune Vidyarthi Grah 1998.
B. S. Grewal, “Higher Engineering Mathematics”
Khannna Publication 1997.
Reference Books
Shanti Narayan, “Matrices” S Chand 1997.
Shanti Narayan , “Differential Calculus” Shyamlal
Charitable Trust, 1997.
Vashistha, “Matrices” Krishna Publication
1997
Edwin Kreyzig, “Engineering Mathematics”
7th ed John Wiley and Sons 1993
AS202 Applied
Science – II
4 0 4
Interference, diffraction, theory of colours
ultrasonics, X
rays, Radioisotopes production and
their applications.
Magnetic permeability, susceptibility of solids and
liquids.
Quantum nature of radiation, Black body spectrum ,
hypothesis and various laws.
Photoelectric effect. Compton
effect, derivation for compton shift,
matter waves, Heisenberg's
uncertainty principles and its applications.
Phase rule , Application
to various systems.
Electrochemistry & Corrosion
- Conductance, Conductivity cell, Kohlrauch’s law, weak electrolyte, Ionic
product of water, Solubility,
Direct corrosion, Various theory Concentration cell corrosion. Factors affecting
corrosion, Different types of corrosion, Prevention of corrosion ,Introduction
to application of metallic coating,Introduction to Crystal Growth, Introduction to Crystallography
Text Books
Newman and Searle, “General Properties of
Matter”, Emest Benn Ltd. London, 1963
D. S. Mathur, “Elements of Properties of Matter”,
Shyamlal Charitable Trust, 10th Ed., 1969.
Indu Prakash, “ Optics “ Kishore Publishing
House, 3rd Ed., 1960.
Reference
Books
S.
O. Pillai, “Solid State Physics”,
B.
G. Streatman, “Solid Electronics”,
S.
M. Sze, “Physics & Technology, Semiconductor Devices”
S.
M. Sze, “VLSI Technology”, McGraw Hill .
ET201 Discrete
Electronics
4 0
4
Introduction:- Review of single stage amplifiers, low
and high frequency amplifiers.
Multistage Amplifiers:- RC coupled, cascade, Darlington pair, DC amplifiers. Design:-
single, multiple stage, RC coupled amplifier, Feed back Amplifiers,
Oscillators,
Relaxation oscillator and linear sweep circuits, switching
circuits multivibrators.
Power amplifiers:
-
Analysis of large signal amplifiers. Design of audio
frequency power amplifiers. Voltage regulators.
Power Devices; SCR, DIAC, TRIAC, OPTO Devices: LDR,
Photo diode, Photo transistor, Their characteristics, applications
Boylstead and Neshelesky , “Electronics Devices and
Circuits”, 4th , PHI, 1999.
J. Millman and A Grabel, “ Microelectronics”,
MacGraw Hill 1988.
Number systems and conversions, Introduction to
Boolean Algebra and switching functions, Boolean minimization, Finite state
machines, Design of synchronous finite state machines, FSM minimization,
Asynchronous FSMS.
Bipolar logic families (TTL + ECL), MOS logic
families (NMOS & CMOS), and their electrical behavior. Memory elements,
timing circuits, Elementary combinational and sequential digital circuits;
adders, comparators, shift registers, counters. Logic implementation using
programmable devices (ROM, PLA, FPGA).
Texts Book
H. Taub and D. Schilling, Digital Integrated
Electronics McGraw Hill 1977.
Malvino Leach ,”Digital Electronics” PHI
References
Gothmanni, “Digital Electronics” : An
Introduction to theory & practice “2nd edition, PHI
Tocci, Digital Systems : Principles and
Applications” 6th edition, PHI.
F. J. hill and G. L. Peterson, “Switching Theory
and Logic Design” John wiley, 1981
ET203
Principles of Electronics
Communication
4 0 4
Introduction :- Communication System, analog and
digital communication, primary communication source, bandwidth and power
efficiency.
Need for modulation system, AM, FM, PM, Principle, generation, and detection, Transmitter and receivers, SSB generation and detection, System evolution and performance, forms of AM, Pilot carrier , VSB and ISB. Noise triangle, Pre-emphasis and De-emphasis.
Elements of DC :-Pulse Modulation, Sampling Theorem, PAM, PTM, PWM, PPM, pulse code modulation, Quantisation noise, companding, PCM system, differential PCM, Delta modulation.
Multiplexing :- FDM/TDM Radio receiver and
Transmitter.
Facsimile Transmission and Reception.
Television :-Introduction, Scanning, Composite Video
signal, Television Transmitter, television receiver.
Text
Book
George Kennedy, “Electrical Communication
systems”, Tata McGraw Hill 1993.
Roody Collin, “Electronics Communication”, PHI
References
Simon Haykin, “An Introduction to Analog and Digital communications”, John Wiley and Sons, 1994.
R.B Carlson, “Communication Systems”, MacGraw Hill.
Graphs : Paths, connected ness, circuits, cutsets,
heer; Matrix representation of directed graphs; incidence, cutset and circuit
matrices, Method of analysis of linear networks; nodal cutset mesh and open loop
analysis.
Time and frequency domain approaches to electrical
networks; state equations for linear networks with number of capacitor loops or
inductor, cutset matrix, solution of state equations for the distinct eigen
values case; laplace transforms and their adoption to networks.
Two Port
networks : Two port parameters, interconnection of two ports and their effect of
the parameters, Tellegens generalized reciprocity theorem.
Multiport and multilerminal networks; their
representations and interconnection.
Transfer functions : poles and zeros, elements of
filter theory.
Transmission lines.
Text Book
Van Valkamburg,” Network Analysis” PHI
References
N. Balalanian & T. A. Bickat,”Linear Network
Theory, Analysis Properties Design and
Synthesis”
Mahir Publishers, 1981
Gopal G Bhise, Prem Chadha, “Engineering Network
Analysis and Filter Design”, 1st Ed, Umesh Publications, 1999.
AS203 Applied
Science Lab1I
2 0 2
Practicals to suppliment AS202 course
Determination of hardness of water, estimation of
copper in brass, iron, manganese. Determination flash and fire point.
Study of various
Lasers, characteristics of photo electric devices.
ET205
Electronics and Logic Circuits Lab
0 4 4
Practicals to suppliment ET201 and ET202 courses.
Practicals for electronics consists of frequency responses of a amplifiers, various couplings of amplifiers, oscillators, multivibrators, calculation of efficiency of power amplifiers.
Practicals for logic circuit consists of study of various gates, flip-flops, combinational and sequential circuits with the experiments, counters, shift registers.
.
ET206
Communication Lab1 0
2 2
Practicals to suppliment course ET203
Experimental set up to study AM, FM and its
detections, AM and FM transmitters and receivers, pre-emphasis and de-emphesis,
Digital Modulations, TV receivers.
AS204 Probability, Random Theory
4 0 4
Basic definition of probability, random variables,
probability density function, probability distribution function, standard
univariate and multivariate distributions, conditional distributions and
densities, moment generating functions, characteristic functions, limit
theorems.
Point estimation, interval estimation.
Hypothesis testing. Simple
linear regression, correlation.
Random Processes:- definitions and formulae
Exposure to statistical package like SAS and SPSS.
Texts
Book
M. O'Flynn, Harper and Row “Probabilities, Random
Variables and Random Processes” 1985.
References
A. Papoulis “Probability, Random variables and
Stochastic Processes”, McGraw hill 1985.
H. Stark and J. W. Woods “Probability, Random
Processes and
Estimation Theory for Engineers” Prentice Hall, 1986.
A. D. Allen “Probability, Statistics and Queuing
Theory with Computer Sciences Applications”, 2nd ed., Academic
Press,1990.
H. J. Larson “Introduction to Probability Theory
and
Statistical Inference”
3rd ed., Wiley,
1969.
D. M. Himmelblau “Process Analysis by Stastical
Methods” Wiley, 1970
AS205
Numerical Methods
4 0 4
Finite difference method and approximation
Representat Iterative methods and comparative study, Interpolation methods and error calculation, Least squares approximation of functions, Numerical integration methods and comparative study, Numerical solution of 1st and 2nd order differential equations, Solution of simultaneous algebraic equations,
Linear
programming, Transportation problems PERT/CPM
Balguruswami,
“Numerical Methods” TMH 1999.
S.
S. Sastry, “Introductory Methods of Numerical Analysis” PHI
V.
Rajaraman, “Computer Oriented Numerical Methods”,
PHI
Mathews,
“Numerical Methods for Scientist & Engineers”
PHI
Taha,
“Operations Research” PHI
Introduction to operational amplifiers :-
Differential amplifiers and ideal operational amplifiers models, concept of
negative feedback and virtual short, Analysis of simple operational amplifier
circuits, Frequency response of amplifiers, Bode plots. Characteristics studies
of typical operational amplifiers.
Linear and nonlinear applications of operational
amplifiers,
Wave form Generation: Sinusoidal, relaxation
oscillators, square, triangle.
Analog & Digital Interface Circuits: A/D, D/A,
S/H circuits & Multiplexers.
555 Timers , Introduction to 565
Regulator ICS
Text Books
Ramakant Gaikwad, “Linear Integrated Circuits”,
PHI,
3rd 1999
References
Books
Gram, Tobey “Operational Amplifiers” McGH
J. V. Wait L. P. Hulsman, “Introductin to
Operational amplifier theory and applications” 2nd edition, McGraw
Hill, New York 1992
Botkar, “Integrated
Electronics” Khanna
Publication.
ET208
Electromagnetic Wave Propogation
4 0 4
Features of a
field theory, the Maxwell equation as a part of a field theory Lorentz force
law, Maxwell equations in a source-free region-wave equation plane TEM waves,
pointing vector, polarization, phasor analysis of sinusoidal TEM waves, plane
waves incident on dielectric surfaces-normal and oblique incidence, derivation
of the Snell laws, plane waves incident on
metallic surfaces-skin depth and surface impedance.
Guided Non-TEM Waves:-.
Properties of non-TEM waves, conditions for propagation in a set of
conductors, propagation verses evanescent modes, cut-off frequency of
propagation modes in rectangular and cylindrical wave guides, velocity dispersion in non-TEM
wave guides, modal field
patterns, excitation of modes, co-axial to wave guide adapters.
Antennas:- Communication system requirements for an
antenna, gain of an antenna, reciprocity of Maxwell equations in linear
isotropic media, radiation from a moving point charge-retarded potentials,
radiation from a Hertzian dipole, half and quarter wave dipoles, adcock antenna,
Yagi antenna, radiation form an aperture illuminated by a
TEM plane wave, fourier transformation of the
source into far-field radiation’s patterns, horn Antenna, microstrip
antenna.
Text
Book
E.C.Jordan & K.G Balmain, “Electromagnetic
waves & Radiating systems”.
Prentice Hall of India , New Delhi
References
N.Narayana Rao,
“Basic Electromagnetic with applications” Prentice Hall of India, New Delhi
Ramo & Whinnery , “Fields and Waves in
Communication Electronics ” Wiley
Eastern (1997)
ET209
Electronics Measurements and Instruments
4 0 4
Properties of Instruments, Measurements, Standards.
Interfacing to real world: Transducers for physical
and chemical measurements,. Transducers for temperature acceleration pressure,
vibration, magnetic field and light and associated
circuits.
Measurement of LC &R:Bridges,Q meters, LCR/impedance
meters.
Measurements of Amplifier Parameters:-.
Vand I measurements,
Oscilloscopes: Real time, sampling and digital storage oscilloscope; DC micro
and nano-volt meters; AC voltmeters: peak, average and true rms. Meters, Vector
& Sampling voltmeters, Digital multimeters.
Signal generators:- Low frequency oscillators and
function generators, Wide range RF generators, synthesized function generators.
Measurement in the presence of noise: Lock-in
amplifiers, signal averages, Improvement of SNR with averaging.
Spectrum
& N/W analyzers: Spectrum analyzers: Real time, FFT based dynamic and super
heterodyne spectrum analyzers; Network analyzers; Scalar analyzers and vector
analyzer
Computer Aided Measurements: Measurement system
architectures; Data acquisition cards and plug-in instruments; IEEE 488 based
instruments; VXI bus based instruments; Virtual instruments.
BER Measurements. Communication
receivers, Fibre Optic Measurements, Noise Measurements.
Text Book
W. D. Cooper," Electronic Instrumentation &
Measurement Technique", Prentice Hall India, 1982
References
B. H. Oliver & J.M. Cage (ed.), "Electronic
Measurement & Instrumentation", McGraw Hill , 1971
A. M. Rudkin , "Electronic Test Equipment",
1981
M. L. Meade," Lock-in amplifiers", Peter
Peregnius, 1983
S. Soclof," Applications of Analog Integrated
Circuits", Prentice Hall, 1987.
J. A. Alloca," Electronic Instrumentation",
Prentice Hall, 1987
CS204
Computer Architechure And Organisation
4
0 4
Introduction :- Organisation and Architecture, Structure and function, Evolution of Computers.
System Buses, Computer Components, Computer function, Interconnection structures, Bus Interconnection, PCI Futurebus +
Internal Memory and External Memory .
Input / Output - External Devices, I/O Modules, Programmed I/O, Interrupt Driver I/O, DMA, I/O Channels and processors, The External Interface.
Operating System Support - Operating system Overview, Scheduling, Memory Management.
CPU Organisation - Processor Organisation, Register Organisation, Instruction Cycle, Instruction Pipelining.
Data Path Design - Fixed point arithmetic, ALU, Advanced Topics.
Control Design - Basic Concepts, Micro-programmed control, Pipeline control.
System Organisation: Communication Methods, Parallel processing.
Text
Book
John P Hayes, “Computer Architecture and Organisation” - McGraw Hill, 1998.
William Stallings, “Computer Organisation and Architecture” ( 4th Edition ) - PHI, 1998.
References
Andrew C. Tanenbaum, “Structured Computer Organisation” ( 3rd Edition ) -, PHI.
Computer System Architecture - M. Morris Maw, PHI, 1998.
ET210
Measurements lab 0
2 2
Practicals to
Suppliment ET209 course
Measurement of component values using
bridges, Study of Oscilloscope, measurement of voltage, current and frequency
using oscilloscope, Study of storage of oscilloscope, Distortion factor analyzer
, spectrum analyzer. Measurement of BER.
ET211
Linear Circuits lab
0 2 2
Practicals to suppliment ET207 course.
Study of a inverting and non inverting amplifier, measurements of offset current, input bias current, slew rate of an op-amp. Precision rectifier, schmitt trigger, oscillator using op-amp, astable and monostable multivibrators using 555 timer, Regulation of IC regulator.