SEMESTER III B.E. ELECTRONICS ENGINEERING 3U1 APPLIED MATHEMATICS-III
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SEMESTER III B.E. ELECTRONICS ENGINEERING
3U1
APPLIED MATHEMATICS-III
UNIT-I: Laplace Transforms
Laplace Transforms and their simple properties, simple application for
Laplace Transforms to solve ordinary differential equation including
Simultaneous equations, solution of one-dimensional partial differential
Equation by transforms method.
UNIT-II: Complex Variables
Analytic function, Cauchy-Riemann condition, Conjugate function,
Singulaterities , integral theorem and integral formula (statement only),
Taylor’s Laurent’s theorem (statement only), Residue theorem, contour
Integration
UNIT-III: Calculus of Variations
Maxima and Minima of function’s, variations and its properties. Euler’s
equations, functional dependent on first and second order
Derivatives, simple application.
UNIT-IV: Fourier series and Signal Spectra
Introduction, the Fourier theorem, Evaluation of Fourier
Coefficient, consideration of symmetry, (odd, even, rotational),
Exponential form: Fourier series, Fourier integral theorem,
Fourier Transforms and continuous spectra
UNIT-V: Partial Differential Equation
Partial Differential Equation of first order First Degree
i.e. Langrage’s form, Linear , homogenous P.D.E. Of
nth order with constant coefficient, method of separation
of variables , Application of transmission lines.
UNIT-VI: Matrices
Inverse of matrix by adjoint method and its use in solving
Simultaneous Equation, rank of matrix, consistency of
System of equation, inverse of matrix by partitioning
Method. Linear dependence, Linear and orthogonal transformations
Characteristics Equations, eigen values and eigen vectors.
Reduction to diagonal form, Cayley – Hamiltone theorem(without proof)
Statement and verification ,Syltestor theorem ,Association of matrices with
Linear differential equation of second order with constant coefficient.
Determination of largest eigen values and eigen vectors by integration
method.
Text Books
1
Adv Engg Mathematics –Kreyszig
2
Higher Engg Mathematics—B. S. Grewal
3
Linear Network Theory – Kelkar and Pandit ( for unit 4)
Reference Books
1
Mathematics for Engineer—Chandrika Prasad
2
Adv. Mathematics for Engineers—Chandrika Prasad
3
Applied Mathematics for Engineers—L. A. Pipes and Harville
4
Text Book of Applied Mathematics for engineers—P. J. & J. N.
Wartikar
3U2
ELECTRONIC DEVICES AND CIRCUTS
UNIT-I: Semiconductor Diode and Power Supplies:
P-N junction diode, open circuited junction, forward and reverse bias,
V-I char., dynamic resistances, temperature dependence, Avalanche and
Zener break down, schottkey diode, photodiode, LED’s, LCD’s, Varactor
diode, Tunnel diode. Power Supplies, Half Wave and Full Wave Rectifiers,
Voltage doublers,
Filters, ripple factor. Zener and emitter follower type and series regulators.
UNIT-II: Junction Transistors:
Theory of operation, static characteristics, Break down voltage, Current
voltage power limitation, Biasing of BJT different biasing arrangements,
stability factor. Thermal runway, Power transistor.
UNIT-III: BJT Analysis:
Small signal analysis CE,CB,CC amplifiers and Comparison.
High frequency analysis, calculation of frequency response, gain
Band width product.
UNIT-IV: Power Amplifiers
Classification of A, B, AB, C classes efficiency, Push Pull
Configuration(A,B,AB) Complementary symmetry, second harmonic and
cross over distortion.
UNIT-V:-: Positive and Negative Feedback Amplifier
Feedback amplifiers, classification, practical circuit applications,
advantages.
Oscillator, Stability, Barkhausen Criterion RC, LC & Crystal Oscillator
UNIT-VI: FET and Its Analysis
Field effect transistor & MOSFET, Principle of operation & Characteristics,
biasing arrangement, small signal analysis of CG,CD,CS High frequency
analysis.
Text Books:1) Millman and Halkias: Integrated Electronic, McGraw Hill
2) Millman and Halkias: Electronic Devices and Circuits, McGraw Hill
Reference Books:1) Schilling and Beloov: Electronic Circuits-Discrete and Integrated
McGraw Hill.
2) Bapat:Throry and Problems in Circuit. Analysis(McGraw Hill)
3) Carr: Electronic Devices,(Tata McGraw Hill)
3U3
ELECTRONIC MEASUREMENTS
UNIT-I:
Statistical analysis of measurements of error, accuracy, precision type of
errors, Fundamental and Derived units, Conversion of units. Classification
of standards; standards of mass, length, times, volume, frequency,
temperature light intensity, electrical Properties.
UNIT-II:
PMMC type galvanometer, dc voltmeter, ammeter, multimeter, Watt-hour
Meter, 3 phase wattmeter, power factor meter, instrument transformers.
Measurement of low, medium and high resistances.
UNIT-III:
Bridges: Wheat stone, Kelvin, Max-well, Hays, Schering, Wien Bridge
Potentiometer, Measurements of Inductances, capacitances using AC
Bridges.
UNIT-IV:
Amplified dc meters, AC voltmeter using rectifiers, True/RMS Voltmeter,
Electronic Multimeter, Digital Voltmeter, Component measuring instrument,
Q-meter, RF power and voltage measurement
UNIT-V:
Oscilloscopes Block Diagram, CRT, deflection system, and delay line
multiple trace, triggering, delayed, sweep, digital storage Oscilloscopes.
UNIT –VI:
Frequency, Time and Power measurements signal analysis
Text Books
1
Electronics Instrumentation Measrement Technique-- Cooper , PHI
Reference Books
1
Electronics Instrumentation – Terman & Petit
2
Electronics Instrumentation – Kalsi- TMH
3
Electronics Measurement and Instrumentation—Oliver TMH
4
Measurement Analysis --- Barnest Frank
5
Electric Measurement and Instrumentation—Drydate & Jolly
6
Electric and Electronics Measurements and Measuring Instrments—
Ramabhardra – Khanna publ.
3U4
NETWORK THEORY
UNIT-I:
Nodal and Mesh –base equilibrium equations, matrix approach for
complicated network containing voltage current -sources and reactances,
source transformation, duality, mesh base equation for coupled circuits.
UNIT-II:
Network Theorem: Superposition theorem, Reciprocity, Thevenin’s
Norton’s maximum power transfer theorem, compensation, Tellagen’s
theorem as applied AC circuits
UNIT-III:
Trigonometric and exponential Fourier series, discrete spectra and
symmetry of waveform, steady state response of network to nonSinusoidal periodic input. Power factor, erective values, Fourier transforms
and
continuous spectra, three phases unbalance circuit and power
calculation
UNIT-IV: Laplace transform and properties, partials fractions, singularity
Functions, Waveform synthesis .Analysis of RC,RL and RLC network
With and without initial conditions with Laplace transforms, evaluations
of initial conditions.
UNIT-V:
Transient behavior, concept of complex frequency, Driving Points and
transfer function, poles and zeros of immitance function, their properties,
sinusoidal response from pole zero location, Convolution Theorem and
integral solutions.
UNIT VI:
Two port network parameter and inter-connection, Behavior of series and
parallel resonant circuit. Introduction to band pass, low pass, high pass
and band reject filters.
Text Books
1 Network Analysis – Van Valkenburg
2 Linear Network Theory-- Kelkar and Pandit
Reference Books
1
Network and Systems – D.P. Roychoudhari
2
Network Analysis – G. K. Mittal
3
Electrical Circuits -Del Toro
4
Modern Network Analysis – Reza and Seelly
C AND DATA STRUCTURES
UNIT-I:
Structure of C programs- Data Types storage classes, scope of variables,
expressions and operators.
UNIT-II:
Program control Statements-for, if, while. Switch concept of function and
recursion.
UNIT-III:
I/O through printf, scanf functions, file I/O Open. Close read & write.
UNIT-IV:
Arrays scarching (Linear & Binary)Sorting (Bubble. Selection sort)
UNIT-V:
Pointers and structures. Singly linked list Insertion, deletion, updation.
UNIT-VI:
Study of following numerical methods with reference to algorithm
development
And error analysis.-Newton Rapheon Method
-Gauss soidal Method
-Runge Kutta Method
Text Books:
1) ‘C’ Programming language ANSI C: Kernighan & Rietchie
2) A text book on Programming Languages C and C++: Kakde &
Deshpande
3) Introduction to numerical Methods: S. S. Shastri
4) Pascal & C Programming: Venugopal
5) Pascal Plus Data Structure: Dale, Lilly
6) Computer Programming with ‘C’: Gottfried
7) Computer Algorithms: Rajaraman
IV SEMESTER B.E. ELECTRONICS ENGINEERING
ELECTROMAGNETIC FIELDS
UNIT-1:
Gradient, divergence & curl of a vector & their physical interpretation.
Divergence &
Stoke’s theorems, their proof & validity for vector fields. Irrotational &
solenoidal fields. The uniqueness & Helmholtz theorems.
UNIT-2:
Electrostatic fields, Coulumb’s law, Electric field for different charge
distributions. Gauss law & its applications. Electric potential for different
charge distributions. Poisson’s & Laplace equations.
UNIT-3:
Magnetic fields, Lorentz law, Biot-savert law, Magnetic fields due to
different current distributions. Cause law & Ampere’s law. Magnetic vector
potential & Magnetic flux,
Magnetic vector potential for different current distributions. Lenz’s &
Faraday’s
laws, Energy stored in a Magnetic fields.
UNIT-4:
Electric scalar potential, solution of laplace equation in two dimensions
using method of separation of variables, displacement current. Maxwell’s
equations for time varying fields
& their Physical significance. Boundary conditions of the vector fields.
UNIT-5:
Poynting vector theorm & its proof, Uniform plane wave, Wave equation &
its solution in free space, relation between E. & H. vectors, intrinsic
impedance, wave equations & their solutions & conducting & dielectric
media.
UNIT-6:
Plane waves, normal & oblique incidence-on a perfect conductor &
dielectric, reflection & refraction, shell’s law, Brewster angle, Polarization,
linear, circular & elliptical.
Text Books:
1) Electromagnetic waves & radiating systems: E. C. Jordan, K. C.
Balmain
2) Principles & applications of electromagnetic fields: Plonsy & Collins
3) Electromagnetic Fields: Hayt
4) 2000 solved Problem in Electromagnetics: Masar
DIGITAL CIRCUITS
UNIT-I:
Analog V/s, Digital systems, Transistor as a switch, Boolean Algebra,
Boolean Identities, Logic Problems, Binary, Grey, Octal, Hex & ASCII
Codes, Gates and their truth tables, D Morgan’s Laws Sum of products &
Product of Sums. Logic families: TTL, ECL,CMOS etc, Fan-in, Fan-out,
propagation delay properties.
UNIT-II:
Combinational logic- concepts, SSI, MSI & VLSI Circuits Classification
standard TTL, CMOS characteristics, Decoders. Encoders, Multiplexers,
Demultiplexers, code Converters, characteristics, of display devices,
standard configuration of gates as SSI/ MSI / LSI circuit .
UNIT-III:
Karnaugh Map, Simplification of sum of Products and products of sum,
solution to problems using K Maps conversion of Decoders/ MUX into one
another use of MUX as & function generator.
UNIT-IV:
Introduction to Flip Flop. Latches, concept of clock, Memories classification
With Flip-Flop as basic cell, RAM, ROM, EPROM & EEPROM an
overview,
Master slave combination and conversion of one type to another type FlipFlops.
UNIT-V:
Excitation tables & introduction to sequential circuits counters
synchronous/asynchronous. Different module counters with reset / clear
facility Design of counters of arbitrary modulo with K-maps, Lock free
counters.
UNIT-VI:
Arithmetic circuits-Adders, sub tractors. (Half & Full). BCD adder/ sub
tractor concept of ALU and its design. IC version of multivibrators and their
design parameters.
ELECTRONIC ENGINEERING MATERIALS & COMPONENTS
UNIT-I:
Dielectric, Properties of insulators in static fields, Polarization, dielectric
constant,
Dielectric behavior of monoautomic & Polyautomic gases, liquids & solids,
polar & non-polar dielectrics, Clausius- Masotti equation, ferroelectric,
piezo Electric & piezoelectric materials.
UNIT-II:
Dielectric properties of insulators in alternating fields, complex dielectric
Constant, dipolar relaxation, dielectric loss, loss tangent, dielectric
breakdown, fixed and variable capacitors, electrolytic, paper, plastic,
ceramic & mica capacitors used in electronic circuits, dielectrics used in
cables & transformers.
UNIT-III:
Conductivity of pure metals & alloys, temperature coefficient of resistivity,
High Conductivity materials. High resistivity materials heating elements,
fuses, contact, materials, connectors, switches, heat sinks, solders, fixed
& variable Resistors, non linear resistors, resistors used in electronic
circuits, Super conductivity, type I & II materials, high temperature
superconductivity, applications of superconductivity.
UNIT-IV:
Spin & orbital magnetic dipole moment of electron, dia, para, ferro ferri &
anti
Ferromagnetism, soft and hard magnetic materials, ferrites, magnetic
cores of conductors, transformers, relays, electric machines & memory
elements, magnetic resistors, magnetic tapes.
UNIT-V:
Semiconductors, band gap, electron & hole mobilities purification & doping
of Semiconductor materials, characteristics of Semiconductors devices,
diodes zener & breakdown diodes, tunnel diodes, varactors, transistors
(BJT,FET, MOSFET, UJT) ,Diac, SCR & Triac, Hall effect devices.
UNIT-VI:
Fabrication of linear & digital IC’s LSI, VLSI, CMOS devices, Opto
electronic Devices, LCD, LED, photo transistors, optical couplers,
detectors, optical fibres, lasers.
APPLIED MATHEMATICS IV
UNIT-I: Numerical Methods
Error Analysis, Solutions of algebraic and transcendental equations,
method of False Position, Newton- Raphson method and their,
convergence. System of linear equations, Gauss elimination method,
Causs Seidal method, Crouts methods. Numerical solutions of ordinary
differential equation by Taylors series method, Runge Kutta methods,
Euler modified method; Milne’s predictor corrector method.
UNIT-II: The Z – Transform
Z-Transform, inverse Z-Transform, Relationship of the Fourier transform to
Z-Transform, Properties of Z-Transform Convolution of two sequences,
Poles & Zeros, The inverse Z-Transform by power series expansion. The
inverse Z-transform by partial fraction expansion, the one sided Ztransform: Definition & properties. Solution of Difference equations.
UNIT-III: Random variable and probability distribution
Random variable: discrete and continuous; probability density function;
Probability distribution function for discrete, and continuous random
variable Joint distributions.
UNIT–IV: Mathematical Expectation
Definition of mathematical expectation, functions of random variables,
The variance and standard deviations, moment generating function
other measures of central tendency and dispersion, Skewness and
Kurtosis.
UNIT–V: Probability Distribution,
Bernoulli distribution, Poisson distribution, Relation between Binomial and
Poisson distribution. Normal distribution, Relation between Binomial and
Normal distribution.
The central limit theorem, Exponential distribution.
UNIT–VI: Special Functions and Series Solution
Series solution of differential equation by: Frobanius method, Bessel’s
functions, Legendre’s polynomials, Recurrence relations, Rodrigue’s
formula, generating functions, orthogonal properties jn (x) and pn (X)
BASIC ELECTRICAL MACHINES
UNIT-I:
Transformer: Single Phase and three phase-effect of loading, regulation,
open circuit and short-circuit tests, efficiency, all day efficiency, parallel
operation. Autotransformer.
UNIT-II:
D.C. Motor Generators, series, shunt and compound, Commutator,
armature EMF Armature reaction and commutation, equivalent circuit,
characteristics, parallel Operation, Applications.
UNIT-III:
D.C. Motor: Series, shunt and compound, Back emf, characteristics,
starting, speed control, applications.
UNIT-IV:
Three Phase, Induction Motor: Principle of operation, type, torque and slip
equivalent circuit, No load and Blocked rotor test, starting speed control
applications.
UNIT-V:
Single Phase Motors: Principle of operation of Single Phase induction
motors, Starting methods, principle of a.c. series motor, Universal motor.
UNIT-VI:
Three Phase synchronous Machines: Motor and Generator action
synchronous Impedance and excitation. Equivalent circuit, voltage
regulation, starting of motor, effect of excitation variation in case of motor.
III YEAR B.E. ELECTRONICS ENGINEERING
FIELDS AND RADIATING SYSTEMS.
UNIT-I: Guided Waves:
Waves between parallel planes, TE, TM, TEM waves and their
characteristics, Attenuation in parallel plane Guides, wave impedances.
UNIT-II: Rectangular Wave guides:
TE, TM waves in Rectangular guides and their characteristics, wave
velocity, guide wavelength, wave impedances, Field configurations.
UNIT-III: Transmission Lines :
Transmission Lines equations and their solutions. Transmission Lines
parameters. Characteristics impedance, propagation constant, attenuation
constant and phase constant, waveform distortion, Distortion less
transmission lines. Loading of transmission lines, reflection coefficient and
VSWR. Equivalent circuits of transmission lines. transmission lines at
frequency. Open and short circuited lines. Smith chart. Stub matching .
UNIT-IV:
Scalar and vector potentials, retarded potentials, field due to a current
elements, power radiated and radiation resistance, far field due to a dipole,
power radiated and radiation resistance. Reciprocity theorem applied to
antennas gain and aperture of an antenna, Radiation intensity, Directivity
Antenna gain.
UNIT-V:
Two element arrays and their directional characteristics, Linear array
analysis, Broadside and end-fire arrays, pattern multiplication, Binomial
arrays, Design of broadcast array for a specific pattern.
UNIT 6:
Parabolic reflectors, analysis and power pattern, Lens antennas, folded
dipole, turnstile and Yagi antenna, Log-periodic antennas, Horn antennas,
Traveling wave antennas. And casse train Antenna.
MICROPROCESSORS AND INTERFACING
UNIT-I:
VSLI circuit concept, Approach to integrated system Design using
Microprocessor, Bus concepts, Address Data & Control, Organization of a
computer with MPU. Bits/Bits/ Words/ Long wards- their ranges – accuracy
& precision. Memory Organization, Linear/ absolute decoding.
UNIT-II:
Introduction to Intel’s 8085 A Architecture- description, software
Instructions, Addressing Modes- Timing Diagrams, Assemblers &
Dissemblers- (By Hand coding)
UNIT-III:
Flag structure, concept of PSW stacks & subroutines- impale & nested.
PUSH, POP instructions & CALL / RETURN instructions, Stack
manipulation. Simple programs.
UNIT-IV:
Interrupts- Concept and structure in 8085. Interrupts service routines
Advanced instructions & Programming of 8085 A.
UNIT-V:
Methods of data transfer – serial, parallel, synchronous asynchronous.
IN/OUT instructions Timing diagrams simple hardware interface to 8085
of standard Latches/ Buffers/ Keys/ display devices as I/O ports.
Handshaking concepts. Architecture and interface of 8255 & 8253 to 8085.
Interfacing of ADC & DAC.
UNIT-IV:
Hardware considerations-bus contention, slow memory interfacing,
complete signal description of 8085.multiplexed keyboard/Display interface
and assembler Directives
General awareness about microcomputer system related products.
SIGNAL & SYSTEMS
UNIT-I:
Analysis of Signals Representation of signals using a set of orthogonal
signals, Fourier series representation of periodic signals. Fourier transform
of periodic and nonperiodic signals, properties of Fourier Transform,
convolution in time & frequency domain. Sampling theory for band limited
signals.
UNIT-II:
Probability, random variables and stochastic processes. Review of
probability theory, random variables, probability density and distribution
function. Random processes, periodic processes, stationary processes.
Auto correlation cross correlation applications to signal analysis. Power
density and spectral density function.
UNIT-III:
Bandwidth and rate of pulse transmission Inter symbol Interference, PSD
of Digital signals, Line coding, RZ, NRZ, Polar, Manchester coding
Schemes. Nyquists’s first & second Criterion for zero ISI, Pulse shaping,
tapped delay line
filters and adaptive equalization.
UNIT-IV:
Quantization noise, PCM, A-law & Mu – law. Delta modulation, ADM,
Introduction , ADM, Introduction to ADPCM. Study of noise performance
for above systems.
UNIT-V:
Digital Modulation techniques, salient features of ASK, PSK<FSK & DPSK
systems M-ary communication systems Matched filter detection.
UNIT-VI:
Information theory, channel capacity of discrete & continuous channels.
Error control coding Hamming distance, Linear block codes, CRC,
Convolution
Codes.
ELECTRONIC INSTRUMENTION
UNIT-I:
Generalized instrumentation systems. Active & Passive transducers,
Digital & Analog mode of operation static & dynamic characteristics &
performance of instruments. Statistical treatment of measurement errors,
Gaussian error distribution, probability tables, combination of errors .
UNIT-II:
Study of transducers & measuring system for the following Motion
measurement relative & absolute motion of accelerometer, electrical
transducer for motion measurement, LVDT, Piezoelectric transducers,
variable inductance. & Measurement of shaft torque & power.
UNIT-III:
Temperature : Laws of thermoelectric ckts, Thermocouples, cold junction
compensation, thermostats, active – temp. Sensors, radiation,
thermometry, broad band & narrow band radiation methods, two colour
pyrometer, optical pyrometer, temperature measurement of flowing liquids,
dynamic response & compensation of temperature sensor, Heat flux
sensors.
UNIT-IV:
Strain: Bonded & unbounded electrical strain gauges, gauge factor,
temperature compensation methods, problems in biaxial strain fields,
Errors in the measurement of biaxial strains. Miscellaneous measurement :
measurement of liquid level, flow, pressure and pH.
UNIT-V:
Signal conditioning techniques used in various transducers, linearization,
gain, clipping, filtering, differential amplification, Shielding techniques,
various standards for signal transmission like 4-20 mA current loop
converter etc.
UNIT-VI:
Recording pf data, CRO, data acquisition systems, IEEE 488 bus ,
principle of operation, protocols etc test equipments like multi meter,
signal generator,
signal analyzer.
LINEAR ELECTRONIC CIRCUITS
UNIT I:
Basic Operational amplifier circuits:
Differential amplifier stages, current source, biasing, level shifting
techniques, common mode and differential mode gains and impedances of
a differential stage.
UNIT II:
Overload protection circuits, Frequency response and compensation
characteristics of various parameters.
UNIT III:
Simple circuits like inverting, non-inverting buffer amplifiers, summers,
integrators and differential amplifier configurations, bridge amplifiers,
Instrumentation
Amplifier, grounding and shielding problem in Instrumentation amplifier.
UNIT IV:
Precision rectifiers, RMS to DC conversion, constant current and voltage
sources, sinusoidal oscillators, with frequency and amplitude stabilization,
Elementary idea of active filter. Second order Butter worth chebyshev filter.
UNIT V:
Op-Amp circuits for clipping clamping and comparator circuits with
nonlinear components, multiplezers and demultiplexers , bistable,
monostable, astable multivibarator
Circuits using Op-Amp. Sample / Hold circuits. D/A & A/D conversion
circuits Phased Locked loops.
UNIT VI:
Study of Linear ICs like LM741 ( Industrial Op- Amp IC), LM555 (Industrial
IC), LM566 (VCO), LM565 (PLL) LM339 (Comparator), LM723 (voltage
regulator)
ENGINEERING ECONOMICS
UNIT–I:
Importance of Economics, Theory of demand utility, Indifference curve and
revealed Preference, Approaches to analysis of demand, elasticity of
demand and its measurement.
UNIT–II:
Factors of production, Laws of returns and costs, Law of variable
proportions, Economics and diseconomies of scale, Large and small scale
industries, financing of large-scale industries, Incorporation of a company,
Types of shares and shares market.
UNIT–III:
Pricing under perfect competition, monopolistic competition, monopoly,
oligopoly, selling costs, Project analysis, depreciation and depletion
methods of providing for depreciation, replacement and amortization,
Present worth equivalence.
UNIT–IV:
Value of money, index numbers, inflation, deflation stagflation, Nature and
meaning of economic development and growth, Role of capital
accumulation in economic development.
UNIT–V:
Sources of public revenue, classification of taxes, direct taxes, indirect
taxes, income of wealth and expenditure corporation tax, tax on business
tax, taxation and functions of money market, bills of exchange, hundis.
UNIT–VI
Pattern and composition of India’s foreign trade, Free trade, trade vs.
protection, export promotion, Foreign exchange market, methods and
objectives of exchange control, I.M.F.I.B.R.D., G.A.T.T.
COMPUTER ORGANISATION
UNIT-I:
Register level design – General characteristics, Description Languages,
Combinational and sequential components, Design methods.
UNIT-II:
Processor level Design - components, Design techniques
Processor Design Processor organization, information representation,
number formats Instruction sets- Instruction formats Instruction types,
multiplication & division ALU design, Floating Point arithmetic, IEEE 754
floating point formats.
UNIT-III:
Control Design – Instruction sequencing, interpretation, Hard wired control
–Design method Multiplier control unit. Micro programmed control – Basic
concepts, minimizing micro Instruction size, Multiplier control unit. Micro
programmed Computer –CPU control unit, A conventional &
unconventional Computer.
UNIT-IV:
Memory organization-Device characteristics, RAM, serial
memories,
Virtual memory Concept of Cache & associative memories.
access
UNIT-V:
System organization – Local and long distance communication, InputOutput systems, Interrupt, DMA, introduction to parallel Processing.
UNIT-VI:
Concept of Parallel Processing , Pipelining, Vector
introduction to RISC architecture, Data flow architecture.
Processors,
CONTROL SYSTEM - I
UNIT- I:
Introduction to need for automation and automatic control. Use of
feedback, Board spectrum of system application. Mathematical modeling,
Diff. Equations, transfer functions, block diagram, signal flow graphs,
Application to elementary systems simplification, Effect of feedback on
parameter variation, disturbance signal, servomechanisms and regulators.
Control system components, Electrical, Electromechanical, hydraulic,
pneumatic and other components. Their functional analysis and input
output representation.
UNIT- II:
Time response of systems, First order and second order system, (
standard input) concept of gain and time constants, Steady state error,
type of control system, approximate methods for higher order system.
UNIT- III:
Root location and its effect on time response, Elementary idea of Root
Locus, effect of adding pole and zero and proximity of imaginary axis.
UNIT- IV:
Stability control systems, conditions of stability characteristics equation,
Routh Hurwitrz Criterion, special cases for determining relative stability.
UNIT-V:
Frequency response method of analyzing linear. System Nyquist and Bode
plot, stability and accuracy analysis from Frequency response, open loop
and close loop Frequency response . Nyquist Criterion, Effect of variation
of gain and addition of pole and zero on response plot, stability margins in
frequency response.
UNIT- VI:
State variable method of analysis, characteristics of system state, choice
of state representation of vector matrix different equation, standard form,
relation between transfer function and state variable.
COMMUNICATION ELECTRONICS
UNIT-I:
Frequency spectrum of electromagnetic waves, their properties, wave
propagation etc, Tuned amplifiers, gain and bandwidth, neutralization.
Noise, types, source, noise figure calculations.
UNIT-II:
A.M. modulators , series plate modulated class ‘C’ amplifier, efficiency and
power calculations. SSB modulation, SSB-SC modulations . A.M.
demodulators, sequare law detector, diode peak detector , envelope
detector, detectors for SSB and SSB – SC A.M. signals, AM using
Transistors.
UNIT-III:
Angle Modulation, Frequency modulation, spectrum, Reactance tube and
FET Modulators, Armstrong method, F.M. Transmitters, frequency
stabilization methods, FM discriminator. Foster Seely, PLL detectors,
stereophonic FM.
UNIT-IV:
Pulse Modulation :
Pulse Amplitude Modulation (PAM) Pulse Width
Modulation (P.W.M.) . Pulse Position Modulation (P.P.M.) . Pulse Code
Modulation (P.C.M.) . Delta Modulation (DM.).
UNIT-V:
Radio Receivers and its measurements : TRF receiver, superhetrodyne
receiver, Detailed study of block schematic and circuits of Mixer, RF-stage,
I.F. stage, detector, automatic Gain control (AGC) , FM Radio receivers.
Receivers measurements : Sensitivity, selectivity image frequency
rejection etc. Communication Receiver schematic and its special features.
UNIT-VI:
Line Telephony : Elemental Phone System, Central switching simple
exchange, Two- and- four wire connections, Time division multiplexing ,
Analog Time – division switching, Time slot Interchanging (TSI) , space
array for digital signals, combined space time switching.
ELECTRONIC WORKSHOP PRACTICE
Fabrication and testing of small electronic circuit, PCB Design and
technical report presentation. Study of Indian Standards in Electronic
Industry Manufacturing practices in Electronic Industry.
IV YEAR B.E. ELECTRONICS ENGINEERING
POWER ELECTRONICS
UNIT-I:
Semiconductor devices, Characteristics and Ratings: Silicon diode. Fast
recovery diode, SCR turn on and turn off method. GTO, IGBT
Characteristics, ratings, features opto couplers.
UNIT-II:
Series and Parallel operation of SCR’s , Triac and it’s application.
UNIT-III:
Single phase and three phase line commutated converters. Triggering
circuits for phase controlled converters, Using UJT and PUT and it’s
application as relaxation oscillator.
UNIT-IV:
Cycloconverter and it’s application:
Choppers: Principle, Chopper circuit’s and their application, step up
chopper, Two quadrant and multiphase chopper.
UNIT-V:
Inverters: Parallel, series and Bridge inverters, three phase Bridge
inverters, Commutation and trigger circuits, current source inverter,
principal of out put Voltage control, Harmonic in out put voltage waveform.
Harmonic PWM Technique. Analysis for single phase pulse width
modulation. Power MOSFET Characteristics, ratings, feature, application
in simple inverter.
UNIT VI:
Protection of SCR’s: gate circuit protection voltage and over current
protection, Snubber circuit design, converter faults and their protection.
Failure Mechanism and effect of derating in SCR’s
INDUSTRIAL MANAGEMENT
UNIT-I:
Principle and Techniques of Management:
Meaning and background of business management, Administration and
organization. Objective of business .History of management throught,
friction of management planning, policy formulation and target setting.
UNIT-II:
Organization and Organization structure and relationship. Direction,
coordination, control, motivation, Delegation, and Decentralization,
communication, leadership and decision Making.
UNIT-III:
Personal Management:
Meaning, function of personnel Manager, joint consultation, collective
a) Bargaining.
b) Recruitment, selection, Induction and promotion.
c)Waggs and Ralery Administration.
d)Welfare training in industry.
e)Industrial and lab our legislation introduction.
f) Participative management, Review.
g) Objective ,function and scope of trade union in Indian Industries.
UNIT-IV:
Material Management:
Classes of material, Scope of material control, scope of purchasing
Department,
Purchasing procedure,
inventory control, ordering procedure Material
identification , physical inventory, store
room location, Layout and
facilities, introduction to production planning and control.
UNIT-V:
Finance Management:
Profit and loss statement and balance sheet. Ratio analysis, principle Of
costing, meaning and application of various Budgets, Type of Budget And
their important .
UNIT-VI:
Marketing Management:
Definition of scope, Market research object, type, sources methods of
Research, Advertising A and sales
promotion, channels od
distributions,
Pricing of procedure. Concept of MIS, physical components of MIS,
Functional subsystem Of MIS .Development towards integrated MIS
management Cooperative system. Decision support system. Information
resources management.
UHF AND MICROWAVE
UNIT-I:
Failures of conventional tube at high frequencies, Two Cavity Klystron
amplifier , Reflex Klystron Oscillator.
UNIT-II:
Traveling Wave tube, Backward wave oscillator, Magnetron Oscillator.
UNIT-III:
Microwave component: Attenuator, Tees, directional coupler, Circulator,
isolator, phase shifter, cavity, resonators, Rectangular cavity resonator,
slow wave structure.
UNIT-IV:
Scattering Matrix:
Scattering matrix of transmission line, microwave junction, Tee junction,
four-port microwave junction, directional Coupler.
UNIT-V:
Microwave Filters:
Designed of microwave filters by image parameter method and insertion
loss method. Microwave Measurement: Microwave power measurement by
bolo meter method and
Calorimetric method, VSWR measurements, Attenuation Impedances
measurements.
UNIT-VI:
Microwave solid State Devices:
GaAs Oscillator, IMPATT and TRAPATT Oscillator, varactor Diode and
parametric amplifier, P-I-N diodes, Scotty Barrier diodes, MASER ,
microwave transistor.
DIGITAL SIGNAL PROCESSING
UNIT-I:
Discrete time signal and system, linearity, time variance, Causality,
stability, properties of
LTI casual system, Response of LTI to various input , convolution,
sampling Theorem and process.
UNIT-II:
Frequencies domain description of signals and systems, Fourier transform
of discrete time signal , properties Of DFT, theorem of DFT , DFT of
typical discrete Signals, symmetric and anti symmetric signals and Their
DFT. Transfer function of system , response through frequency domain
description.
UNIT-III:
The Z transform , definition , properties of ROC’s
Relation
with FT,
system function,
inverse Z transform, Stability interpretation using’s Jury’s array, solution of
Difference equation using unilateral Z transform.
UNIT-IV:
Frequency response of LTI system, relation of TF with Frequency
response, relationship between Magnitude and phase, All pass system,
minimum phase system, digital filter Structure, SFG and block diagram,
DFT1, DFT2,cascade, parallel And lattice. Sensitivity, linear phase and
frequency sampling Structure.
UNIT-V:
Filter Design Technique, Review of approximation butter word, Chebychev
filter, IIR filter design from continuous time filter Bilinear, impulse invariant,
frequency transformation. FIR design, widowing method, Hann, Hann,
Rectangular.
UNIT-VI:
The DFT as signal analysis tool, properties of DFT, circular Convolution,
zero padding, computation of DFT using FFT Algorithm viz decimation in
time and decimation in frequency, Inverse FFT, real time computation of
linear convolution using FFT & IFFT
ELECTRONIC SYSTEM DESIGN
UNIT-I:
Design of regulated power supplies: zener emitter follower, Ic based
regulators, series regulated supply, Design of S.M.P.S. step up and Step
down.
UNIT-II:
Design of Audio power amplifier with driver , class B push pullAmplifier
with and without transformer. Design of LC, RC, And crystal oscillator.
Evalutation of figure of merit.
UNIT-III:
Design of circuits using OP-AMP:- Instrumentation amplifier Design, and
evaluation , current source, Log, Antilog, Sin(x),cos
(x),Multiplier,
integrator, differentiator.
UNIT-IV:
A/D and D/A converter circuit design using flash successive Approximation
and dual scope technique. Digital circuit design Using PLA,FPGA.
ADVANCED MICROPROCESSOR APPLICATION
UNIT-I:
Introduction to 16 bit microprocessor 8080/8088 CPU architecture,
Memory organisation and interfacing. Addressing modes, Instruction set,
examples pseudo Opcodes with ASM- 16 bit.
UNIT-II:
Interfacing of peripheral 8255 and 8253 with 8086 Architecture, Operation
and interfacing of 8251, with 8086/8088. Serial Communication standard
RS232, IEEE 488.
UNIT-III:
Architecture, operation and interfacing of 8259, 8279 with 8086/8088.
Interfacing of ADC/DAC steeper motor interface with 8086/8088
UNIT-IV:
8086/8088 max mode, 8273 DMA and interfacing with 8086/8088 8087
Architecture, interfacing and instruction set.
UNIT-V:
Introduction to 80386
Architecture, instruction set, simple assembly
programmed concept of source, object and exe files, assembler directives.
UNIT VI:
Protected mode of 80386, multitasking, segmentation, paging, cache,
Virtual memory. Introduction to 8097 micro controller and its architecture.
SYSTEM PROGRMMING
UNIT-I:
Assemblers: Overview of assembly process, one pass and two pass
assemblers, Table management techniques.
UNIT–II:
Microprocessors: Defining and calling a Macro, Macro expansion, Nested
Macro calls, Nested Macro definitions, and Conditional Macro Expansion.
UNIT–III:
Linkers and Loaders: Relocatable, Non- Relocatable and self –Relocate –
Code various linking Schemes Design of Relocatable Loader, Binders,
Dynamic Linking.
UNIT–IV:
Overview of Operating system functions. Types of operating systems
processor management-job scheduling, process scheduling, Concept of
Process switching.
UNIT–V:
Process Synchronization, Semaphores mutual exclusion, Hardware
support for mutual exclusion
UNIT–VI:
Memory Management, Contiguous and non- Contiguous allocation
Concept of virtual memory and segmentation Introduction to file
Organization.
SYSTEM PROGRMMING
Text Books:1) System Programming and Operating System – D.M.Dhamdhere (Tata
McGraw Hill)
2) Operating System By Milan Milinkor
SWITCHING THEORY
UNIT–I:
Boolean Algebra and functions, sets, ordered sets, lattices and properties,
algebra properties, Boolean
functions and canonical forms, switching
algebra & functions, generalized complementation & rotation operator,
minimization by tabulation methods.
UNIT–II:
Vector switching algebra and vector switching function, partial derivatives,
series expansion, Total differential and total variations, graphical methods.
UNIT–III:
Class of switching functions monotonic, threshold, symmetric, functionally
complete, multivalued logic combinational circuit realization.
UNIT–IV:
Threshold logic, threshold elements, capabilities and limitations,
elementary properties, synthesis of threshold functions, linear separability,
identification & realization.
UNIT–V:
Fault detection and location types of hazards, Boolean differences,
detection by path sensitization, multiple faults, failure tolerant design.
UNIT–VI:
Sequential machines, finite state model, capabilities & limitations, state
equivalence & machine machines minimization, incompletely specified
machines, fundamental mode & state assignment, pulse mode circuits,
structure of sequential machines, state assignment using partitions, lattice
of closed partition, information flow in sequential machine, decomposition.
OPTICAL COMMUNICATION
UNIT–I:
Principle of optical communication- Attributes and structures of various
fibers such as step index, graded index single mode and multimode fibres.
Propogation in fibres- Ray model, Numerical aperture and multipath
dispersion in step index and graded index fibres Material dispersion and
frequency response.
UNIT–II:
Electromagnetic wave equation in step index and graded index fibres,
Modes and Power flow in fibres. Manufacture of fibres and cables, fibre
joints, splices and connectors
UNIT–III:
Signal degradation in fibres Attenuation, material dispersion, waveguide
dispersion pulse broadening,Mode coupling.
UNIT–IV:
Optical sources- LED and LASER. Structures and properties Source
launching and coupling .
UNIT–V:
Photo detectors P-i-n and and Avalanche Photo- detectors. Structures
and Properties. Optical receiver – operation and Performance
UNIT–VI:
Transmission link-Point to point links,WDM,Data buses star and T-coupler
NRZ, RZ and block codes.Measurement in optical fibres- Attenuation,
dispersion, Refractive index profile and optical source characteristic
measurements.
ANNEXURE II
LECTURE SCHEME FOR EACH SUBJECT:
SESSION 2001-2002
Sr.
No.
Annual/
Semester
1
2
III Semester
III Semester
3
4
5
III Semester
III Semester
III Semester
1
2
3
IV Semester
IV Semester
IV Semester
4
IV Semester
5
IV Semester
Name of the
Subject
Mathematics 3
Electronics
Measurement
Network Theory
C & Data Structure
Electronics
Devices & circuits
Maths IV
Digital circuits
Electronics
Eng. Materials
/Component
Electromagnetic
Fields
Basic Electrical
Machines
Weekly
load
L T P*
3 1
41 2
Total
Teaching
load
4 H/W
7 H/W
Hours of Exams
Theory/Practical
T 3Hrs
T 3Hrs
P 3Hrs
41
41 2
41 2
5 H/W
7 H/W
7 H/W
T 3Hrs
T 3Hrs
T 3Hrs
P 3Hrs
P 3Hrs
31
41 2
41
4 H/W
7 H/W
5 H/W
T 3Hrs
T 3Hrs
T 3Hrs
41
5 H/W
T 3Hrs
41 2
7 H/W
T 3Hrs
P 3Hrs
SESSION 1999- 2000 ONWARDS
Sr.
No.
1
2
Annual/
Semester
III B.E.
3
4
5
6
7
8
9
10
1
2
3
4
5
6
7
8
9
10
IV-B.E.
Name of the
Subject
Field& radiating System
Microprocessors &
Interfacing
Signals & Systems
Electronic Instrumentation
Linear Electronic Circuits
Engineering Economics
Computer
Organisation
Control System Engg
Communication
Electronics
Electronic Workshop
Practices
Power Electronics
Industrial Management
UHF & Microwave
Digital Signal Processing
Electronics System
Design
Advanced
Microprocessors &
Peripherals
System Programming
EI: Switching Theory
E-II:Optical
Communication
Project
Weekly
Load
L T P*
Total
Teaching
load
Hours of
exams
Theory
/Practical
21
3 1 3/2
3
4
3
3
21
21
3 1 3/2
21
31
3
3
3
3
4
3
3
3/ 3
3
3
31
3 1 3/2
4
4
3/2
P 3/2
P 3/2
3
3
P 3/2
3
2 1 3/2
21
2 1 3/2
31
2 1 3/2
3
3
3
4
3
P 3/2
P 3/2
3/3
3
3/3
3
3/3
3 1 3/2
4
P 3/2
3/3
31
3
3
4
3
3
6
P 3/2
3
3
3
ANNEXURE III
LIST OF EXPERIMENTS FOR EACH SUBJECT PER SEMESTER
NOTE: Normally eight experiments are performed from amongst the list.
SEMESTER III B.E. ELECTRONICS ENGINEERING
ELECTRONIC DEVICES & CIRCUITS
1. To study the characteristics of Si & Ge Diode.
2. To study the characteristics of Zener Diode.
3. To study of half wave rectifier with & without filter.
4. To study of full wave rectifier with & without Filter.
5. To study of common base transistor characteristics.
6. To study of common emitter transistor characteristics.
7. To study of FET drain & transfer characteristics.
8. To study of Zener shunt regulator .
9. To study the fixed bias circuit with & without emitter resistance.
10. To study of series current feedback amplifier.
11. To study of voltage Doublers, Tripler & Quadruple.
12. To study of RC phase shift oscillator.
13. To measure h-parameters of a Transistor.
14. To study Transistor as a switch.
15. To Study of diode clipping circuit.
16. To Study of diode clamping circuit.
ELECTRONIC MEASUREMENTS
1. To study Maxwell’s bridge.
2. To Study kelvin’s double bridge.
3. To study energy meter.
4. High Resistance measurement. Using lass of charge method.
5. To study Owen’s bridge.
6. To Measure ac and dc voltage using CRO
7. To Measure frequency using CRO.
8. To Measure Resistance using ammeter , multimeter method.
9. Observe the different signals on CRO using function generator.
10. Analog Multimeter.
11. To Study sharing bridge.
12. To Study Aderson’s bridge.
13. To Measure ac and dc current. (OMM)
C & DATA STRUCTURE
1. Write programmes:to calculate simple interest, to calculate Print
address. to calculate simple interest and net amount,to calculate simple
interest and net amount, Details by user.
2. Write prorammes: to find Roots of quadratic eqns, to find average of
three No.s, to find Net salary, grass salary, to study Print name of
colour, to study Print result with condition given.
3. Write Programmes :To study maximum no of day in month, to study
Print result with marks of three subjects, to check for even no., to no.
divisible by 3 and 5, to find No of days in month according to new leap
year.
4. Write programmes: To study while loop-Print 1-10, to study while loopPrint first 20 even no 5, to Celsius to farenhiet, to study while loopAverage, to study separate digits of three digit no., to study separate
digits of any number .
5. Write programmes: To find sum of digits., to study ARMSTRONG
number, to study PALINDROME number, Using Do while product of
first 20 odd no.s, Do while –sum of no’s, to study sum of even No:s
upto 40
6. Write programmes: To find Factorial of 8., to find series sum
½+2/3+3/4+4/5+5/6 , to find series sum x+x2+x3+x4+x5 , To find
series sum 21+41+61+81, To find series sum x-x3/31+x5/51-x6/61, To
find series sum (x-1)+(x-1)3/31+(x-1)5/51+(x-1)7/71
7. Write programmes: menu driven program for basic calculations., To
generate pattern, To find Julian day and difference between two dates,
To write function –Sum, To write function – factorial find ncr, To write
function – Roots of quadratic equation, To write function –Relation
given with equations
8. Write programmes : Using pointers- Roots of quadratic equation, To
swap integers.
9. Write programmes: Using arrays –result of 10 students, sorting in
ascending order, bubble sorting , multiplication of two matrix.
10. Write programmes: Using string: print pattern for string (given),
comparing two strings, To structure input storing students Records, To
structure input gross and net salary storing of 10 employees.
11. Write programmes: To Create text file with facility to edit, display,
opened and delete, Create binary file with facility to edit, display,
opened and delete, To copy contend of one file to another file
12. Write programmes: To Create a single linked list with facility to edit,
display, opened and delete or search a node, Create a double linked
list and display its contains.
SEMESTER IV B.E. ELECTRONICS ENGINEERING
DIGITAL CIRCUITS
1. Verification of truth table of Basic gates.
2. Verification of truth table of Universal gates.
3. Verification of Demorgan’s theorem.
4. Realization of ‘OR’ gate using i) NAND Gates ii) EX-OR & AND gate.
5. Verification of 2:1 MUX.
6. Verification of 1:2 DMUX .
7. Binary to gray & Gray to binary converter.
8. Verification of S-R F/F using NAND gates.
9. Verification of J-K , D F/F Using NAND gates.
10. Verification of Binary counter.
11. Verification of Binary Subtractor.
ELECTRICAL MACHINES - I
1)
2)
3)
4)
5)
6)
O.C. & S.C. test on single phase transformer.
Load test on single phase transformer.
Load test on d.c. shunt motor.
Speed control of d.c. motor.
Load test on three phase induction motor.
Speed control of three phase slip ring induction motor.
7) Polarity marking of single phase transformer.
8) O.C. & S.C. test on three phase alternator.
III YEAR B.E. ELECTRONICS ENGINEERING
MICROPROCESSORS AND INTERFACING
1. Write ALP to add two 16 bit nos. 1342H & 4532H and store result in B-C
pair.
2. Write ALP to add two 8 bit BCD nos. 78 + 45 Store result in memory
2150H.
3. Write ALP to subtract two 8 bit BCD nos. 78 – 45 Store result in memory
2151H
4. x and y are two 32 bit nos. present in memory from address 2150H and
2300H. Write ALP to add these two 32 bit binary nos. and store result in
memory from address 2710H.
5. Ten, 8 bit binary nos. are present in memory from address 2340H. Write
ALP to transfer this nos. to destination memory from address 2400H.
6. Twelve, 8 bit binary nos. are present in memory from address 2540H.
Write ALP to transfer this nos. to destination memory from address 2548H.
7. Ten, 8 bit binary nos. are present in memory from address 2200H. Write
ALP to transfer this nos. to destination memory from address 2190H, in
reverse order.
8. Fifteen, 8 bit binary nos. are present in memory from address 2560H.
Another Fifteen, 8 bit binary nos. are present in memory from address
2300H. Write ALP to exchange these data blocks.
9. Fifteen, 8 bit binary nos. are present in memory from address 2340H, Write
ALP to find the greatest no. in a data block and store result in memory at
the end of data block.
10. Ten, 8 bit binary nos. are present in memory from address 2345H, Write
ALP to find the smallest no. in a data block and store result in memory at
the end of data block.
11. Twelve, 8 bit binary nos. are present in memory from address 2300H,
Write ALP to arrange the nos. in ascending order in same memory.
12. Twelve, 8 bit binary nos. are present in memory from address 2300H,
Write ALP to arrange the nos. in descending order in same memory.
13. Write ALP to convert 8 bit BCD no. to binary no.
14. Write ALP to convert 8 bit binary no. to BCD no.
15. Write ALP to generate square wave of frequency 1 KHz on SOD pin of
8085µP.
16. Interface IC 8255 PPI with 8085µP and Write ALP to read key status and
display it on LED’s connected to port.
LINEAR ELECTRONIC CIRCUIT
1. Study of OPAMP 741 characteristics.
2. Study of OPAMP as Inverting & Non-inverting amplifier.
3. Study of OPAMP as Integrator & Differentiator.
4. Study of OPAMP as active filter.
5. Study of OPAMP as comparator.
6. Study of OPAMP as voltage to current converter.
7. Study of OPAMP as Log & Antilog amplifier.
8. Study of OPAMP as precision half & full wave rectifier.
9. Study of OPAMP as square and saw-tooth wave generator.
10. Study of OPAMP as Wein bridge oscillator.
11. Study of OPAMP as Schmitt Trigger ckt.
12. Study of phase locked loop using IC 565.
13. Study of PLL as frequency multiplier and synthesizer.
14. Study of IC 555 as Astable Multivibrator.
15. Study of IC 555 as Monostable Multivibrator.
16. Study of IC 555 as Bistable Multivibrator.
B.E.sixth SEMESTER ELECTRONICS
COMMUNICATION ELECTRONICS
1. To study Amplitude Modulation
2.To study Amplitude demodulation.
3.To study DSB-SC/SSB-SC Generator.
4.To study DSB-SC/SSB-SC Receiver.
5.To determine the modulation index using trapezoidal
method.
6.To study frequency Modulation.
7.To study frequency demodulation.
8.To study Pulse Amplitude modulation & demodulation.
9.To study Pulse width modulation.
10.To study Pulse position modulation.
11.To study Time division modulation.
12.To study AM transmitter.
13.To study super heterodyne AM radio receiver.
14.To study FM transmitter.
15.To study FM radio receiver.
16.To study FSK generator & receiver.
17.To study PSK generator & receiver.
18.To study ASK generator & receiver.
ELECTRONIC WORKSHOP
1. Study Of Active Devices such as transistors, thyristors, diodes
2. Study of Passive Components such as transformer wires cables,
connectors, speakers, microphones etc.
3. Testing of npn and pnp transistors identification of terminals, and testing of
junctions
4. Preparation of PCB for the circuit to be built.
5. Soldering of the components.
6. Testing of the working of the circuits.
7. Experiments 4 to 6 forms a mini project where student is supposed to build
and test the circuit.
CONTROL SYSTEM ENGINEERING
1)
2)
3)
4)
5)
6)
7)
8)
To study transient response of a second order system.
Study of stepper motor.
Study of potentiometer.
To study the speed torque characteristic of ac servo motor.
To study the frequency response of RLC network.
To study the synchros : a) To plot the characteristic of synchro transmitter.
b) To plot the characteristic of synchro receiver.
Study of synchro as an error detector.
Study of dc position servo mechanism.
IV YEAR B.E. ELECTRONICS ENGINEERING
UHF & MICROWAVE
1. Identification of various microwave components.
2. To find the frequency 0f Reflex klystron tube and determine
electronic and mechanical tuning range.
3. To study the characteristic of Reflex klystron tube Reflector voltage
Vs power o/p.
4. To study the characteristic of Reflex klystron tube Reflector voltage
Vs frequency.
5. To study the performance of multi hole directional coupler by
measuring fallowing parameter(i) Coupling ii) Directivity iii) Isolation
iv) Insertion loss.
6. To study the performance of different wave guide Tees, E-plane Tee,
H-Plane Tee and E-H (Magic) Tee.
7. To find the attenuation of fixed attenuator and study the calibration of
variable attenuator Movable vane type attenuator and Flap type
attenuator.
8. To measure the quality factor (Q) of an absorption type wave meter.
9. To study the performance of Isolator and determine coupling &
Isolation.
10. To study the performance of three port circulator.
11. To determine the gain of Horn Antenna.
12. To study the characteristic Antennas, plot its beam pattern and find
its lobe width.
13. To study the relationship between frequency, wave length in free
space and guide wavelength.
14. To study the calibration of indirect frequency meter.
15. To measure a high VSWR of a unknown load.
16. To study the characteristic of Gun diode.
17. To study the slide screw tuner.
18. To measure unknown impedance of component under test.
19. To Study various microwave components like Matched load, movable
short, traveling wave indicator, E & H- plane bend, twist.
20. To Study of high power measurement
ELCTRONIC SYSTEM DESIGN
Note for this subject total of 6 experiments are performed. The first step is to
design the circuit-using pen and paper and then using spice (Microcap)
simulate the same, verify, and analyze the results.
Student version of Microcap is supplied to the students.
1.
2.
3.
4.
5.
6.
7.
8.
Design of series voltage Regulator using diode protection circuit.
Design of series voltage Regulator. Using feedback current limiting circuit.
Design of Instrumentation Amplifier.
Design of Power Amplifier.
Design of Logarithmic Amplifier.
Design of diode function generation.
Design of constant current source.
Design of Wien bridge oscillator.
ADVANCE MICROPROCESSORS
1. Ten, 8 bit numbers are present in data memory segment, write assembly
language program to find the greatest number in the data block.
2. Twenty 16 bit numbers are present in data memory segment, write
assembly language program to transfer these numbers to extra memory
segment using string instruction.
3. Twenty 16 bit numbers are present in data memory segment, write
assembly language program to exchange these numbers to extra memory
segment using string instruction.
4. Twelve 8 bit numbers are present in data memory segment, write
assembly language program to arrange these numbers in ascending order.
5. Twelve 8 bit numbers are present in data memory segment, write
assembly language program to arrange these numbers in descending
order.
6. Write assembly language program to convert BCD to Binary no.
7. Write assembly language program for the addition of two 3 X 3 matrices.
Store result in third matrix
8. Write assembly language program for the multiplication of two 3 X 3
matrices. Store
9. result in third matrix.
DIGITAL SIGNAL PROCESSING
1. Consider the sequences x(n) = { 3, 11, 7, 0, -1, 4, 2}, -3 <= n <= 3 and
h(n) = {2 ,3 ,0 ,-5 ,2 ,1 }, -1 <= n <= 4, Write a program to find the
convolution of the two sequences x(n) and h(n). Plot x(n), h(n) and the
result of the convolution.
2. Given the following difference equation y(n) – y(n-1) + 0.9y(n-2) = x(n) for
all n Calculate and plot the impulse response h(n) at n = -20,…,100.
Calculate and plot the unit step response s(n) at n = -20,…,100.
3. Given a causal system y(n) = 0.9y(n-1) + x(n). Find H(z) and sketch its
pole-zero plot. Plot magnitude and phase response. Determine the impulse
response h(n).
4. Let x1(n) = {1, 2, 2} and x2(n) = {1,2,3,4}. Compute the 4-point circular
convolution. Use DFT property. Plot x1(n), x2(n) and the result of the
convolution.
5. It is desired to design a digital filter with following specifications:
6. delta1 = 0.1, delta2 = 0.15, wp = 0.2∏ , ws = 0.3 ∏ , fs =1.
7. Write a program to design using:
8. Impulse invariance technique and Butterworth approximation.
9. Bilinear transformation and Butterworth approximation.
10. Impulse invariance technique and Chebyshev approximation.
11. Bilinear transformation and Chebyshev approximation.
12. Plot phase and magnitude response in all the cases.
Design a digital FIR LPF with following specifications: wp = 0.2∏, ws = 0.3∏,
pass band attenuation = 0.25dB, stop band attenuation 50dB. Choose Kaiser
window.
POWER ELECTRONICS
1)
2)
3)
4)
5)
6)
7)
8)
To plot Vt – It characteristic of SCR.
To study UJT as a relaxation oscillator.
To study method of forced commutation of SCR.
To determine holding and latching current of SCR.
To study four modes of triac.
To study control circuit and parallel inverter.
Study of Ott filter.
Study of three phase bridge converter.
ANNEXURE IV
Tutorials
Tutorial classes are merged into theory classes wherein numerical
problems are solved, case studies are discussed and design problems are
elaborated. Wherever necessary, home assignment or objective type of tests is
given.
ANNEXURE V
LIST OF FINAL YEAR PROJECTS AND NUMBER OF STUDENTS
PER PROJECT
Year-2000-2001
Sr.
No.
1
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
Name of Project
Ecocities A conceptual Frame work
Wireless Application Protocol
UP based intelligent liquid level Device
Simulation of transmitter&Receiver unit
Artificial neural Network applied to
Vapour phase Dehydrogenation of Benzene
Digital speech transmission
Data transmission through voicemail
Liquefaction Assessment By Artificial Neural
Network.
Batch mate–Website using HTML&Java Servlets.
PC based weather monitoring system.
Image Viewer &vector-overlay
Digital Heart beat monitor.
Application of Back Propagation Algorithm using
neural Network
Process control using Fuzzy- logic
M.M.Mushrif
P.T.Karule
S.Y.Ambatkar
M.M.Mushrif
No.
Student
6
5
1
5
A.U.Tingurea
4
M.M.Mushrif
S.Y.Ambatkar
3
4
A.U.Tingurea
3
P.T.Karule
M.M.Mushrif
M.M.Mushrif
M.M.Mushrif
3
7
5
3
S.E.Mendhe
1
P.L.Zade
6
Guide
ANNEXURE VI
LIST OF BOOKS PRESCRIBED FOR STUDIES & REFERENCE
FOR EACH SUBJECT
APPLIED MATHEMATICS-III
Text Books:1) Advanced Engineering Mathematics: Kreyszig.
2) Higher Engineering Mathematics: B.S.Grewal
3) Linear Network Theory by Kelkar and Pandit(for unit no. 4)
Reference Books:1) Mathematics for Engineer :Chandrika Praasad
2) Advanced Mathematics for Engineer: Chandrika Praasad
3) Applied Mathematics for Engineer: L.A. Pipes and Harville
4) A Text Book of Applied Mathematics for Engineer: P.J. and J.N.
Wartikar
ELECTRONIC DEVICES AND CIRCUTS
Text Books:1) Millman and Halkias: Integrated Electronic, McGraw Hill
2) Millman and Halkias: Electronic Devices and Circuits, McGraw Hill
Reference Books:1) Schilling and Beloov: Electronic Circuits-Discrete and Integrated
McGraw Hill.
2) Bapat:Throry and Problems in Circuit. Analysis(McGraw Hill)
3) Carr: Electronic Devices,(Tata McGraw Hill)
ELECTRONIC MEASUREMENTS
Text Books:1) Electronic Instrumentation and Measurements Techniques by Cooper
and Helfrick, PHI Publications.
Reference Books:1) Electronic Instrumentation by Terman & Petil
2) Electronic Instrumentation by Kalsi(THM Pub.)
3) Electronic Measurements and Instrumentation by Oliver(THM Pub.)
4) Measurement Analysis by Barnest Frank
5) Electric Measurements and Instrumentation by Drydate and Jolly.
6) Electric and Electronic Measurements and Measuring Instrumentation
by Rama Bhadra(Khanna Pub.)
NETWORK THEORY
Text Books:
1) Network Analysis: Van Velkenburg
2) Linear network theory: Kelkar and Pandit
Reference Books:1) Network and System: D.P. RoyChoudhary
2) Network Analysis: G.K. Mittal
3) Electrical Circuits: Del tore
4) Modern network analysis by Reza and Seelly
C & DATA STRUCTURES
Text Books:
8) ‘C’ Programming language ANSI C: Kernighan & Rietchie
9) A text book on Programming Languages C and C++: Kakde &
Deshpande
10) Introduction to numerical Methods: S. S. Shastri
11) Pascal & C Programming: Venugopal
12) Pascal Plus Data Structure: Dale, Lilly
13) Computer Programming with ‘C’: Gottfried
14) Computer Algorithms: Rajaraman
ELECTROMAGNETIC FIELDS
Text Books:
5) Electromagnetic waves & radiating systems: E. C. Jordan, K. C.
Balmain
6) Principles & applications of electromagnetic fields: Plonsy & Collins
7) Electromagnetic Fields: Hayt
8) 2000 solved Problem in Electromagnetics: Masar
DIGITAL CIRCUITS
Text Books:
1) Digital Logic and Computer Design: Mano
2) Digital Integrated Electronics: Herbert Taub
3) Digital Electronic Principles: Malvino
4) Introduction to Digital System: Palmer
5) Digital Electronics: Ryan
ELECTRONIC ENGINEERING MATERIALS & COMPONENTS
Text Books:
1) A course in Electrical Engineering Materials: S. P. Seth, A. V. Gupta
2) Electronic Components & Materials: M. A. Joshi, A. H. Wheeler
Reference Books:1) Discrete Electronic Component: F. F. Mazda
2) Electrical Engineering Material: A. J. Dekker
BASIC ELECTRICAL MACHINES
Text Books:
1) Electrical Machinery: Nagarath Kothari
2) Electric Machinary: Fitzerald, Kingsley
3) EMEC Devices: Deltord
4) Electrical Machines: Dr. P. K. Mukherjee and S. Chakravarti
FIELDS AND RADIATING SYSTEMS.
Text Books:1) Antennas by Krauss
2) Electromagnetic wave and radiating systems by E.C. Jordan and
K.G.Balmain.
MICROPROCESSORS AND INTERFACING
Text Books:1) Programming & Interfacing 8085 A. Wietey Eastern, By Gaonkar
2) Programming of 8085, McGraw Hill, By D.V.Hall
3) Goody Intel Microprocessor
4) Pal : Microprocessor Principals & Applications Tata McGraw Hill
5) Gilmore : Microprocessor Principals & Applications Tata McGraw Hill
SIGNAL & SYSTEMS
Text Books:1) Modern Digital and Analog Communication System – B.P. Lathi
2) Digital Communication – Simon Haykin
3) Communication System – B.P. Lathi
4) Communication System – A.B.Carlson Tata McGraw Hill
5) Principles of Communication System – Taub & Schilling Tata McGraw Hill
6) Singh : Communication - System Analog & Design (Tata McGraw Hill)
7) Proakis : Digital Communication(Tata McGraw Hill)
ELECTRONIC INSTRUMENTION
Text Books:1) Measurement system ,application& Design E.O. Doeblin (Tata McGraw
Hill)
2) Op Amp Design & application : Tobey Graeme & Huesoman(Tata McGraw
Hill)
3) Mechanical Measurement : Bucksth & Buck
4) Electrical & Electronic Measurement & Instrumentation Sawhney
5) Kalsi : Electronic Instrumentation(Tata McGraw Hill)
6) Oliver : Electronic Measurement & Instrumentation (Tata McGraw Hill)
7) Ranjan : Instrumentation – Devices & Sys. (Tata McGraw Hill)
LINEAR ELECTRONIC CIRCUITS
Text Books:1) Operational Amplifiers Design & Applications Tobey, Graham,Huelsman
(Tata McGraw Hill)
2) Operational Amplifiers and Applications by R. Gaikwad
Reference Books:1) Linear Integrated Circuits Mannual I,II,III National Semiconductor
2) Linear Applications Handbook National Semiconductor .
3) Dailey : Operational Amplifiers (Tata McGraw Hill)
4) Wait : Introduction to Operational Amp (Tata McGraw Hill)
5) Franco : Designing with Op-Amps(Tata McGraw Hill)
ENGINEERING ECONOMICS
Text Books:1) Economics: Dr. samuelson, (Tata McGraw Hill)
2) Introduction to Economics : Prof. Mitra, word Press Culcutta.
3) Modern Economics Theory : K.K.Dewett.
4) Economics for Engineers : R.K.Amin
5) Elementary Economics Theory : Dr. R.D.Gupta
6) Engineering Economics, Accounts & Management: Surendra Prasad
COMPUTER ORGANISATION
Text Books:1) V.Cark Hammacher Computer organization Third Edition
Reference Books:2) A.S. Tanen Baum, “ Structured Computer Organization” Third Edition, PHI
3) Y Chu, “Computer Organization and Microprogramming” PHI Hall,
Englewood chiffs
4) M.M. Mano, “Computer systems Architecture”. Prentice Hall, Englewood
chiffs, N.J.
5) C.W. Gear, “Computer Organization and programming”. (Tata McGraw
Hill)
6) “Computer Architecture and Organization J.P. Hayes Second Edition
CONTROL SYSTEM - I
Text Books:1) Control systems Analysis : Nagrath and Gopal.
2) Linear systems Analysis : D’ Azzo & Honpis, 1975.
3) Practical as per above syllabus
COMMUNICATION ELECTRONICS
Text Books:1) Communication Electronics : Kennedy, TMH
Reference Books:
1) Communication Electronics : Forest Barker, IBT
2) Radio Communication : Miler
3) Electron Tuble circuits : Seely
4) Principles of Communication System : Taub & Schilling TMH.
5) Communication Electronics : Roddy and coolen PHI
6) Principles of Telephony : N.Biswas
7) Communication Electronics : Deshpande, goabde (Tata McGraw Hill)
ELECTRONIC WORKSHOP PRACTICE
Reference material:1) PCB design: Boshart TMH publication IS standards.
Reference Books:1) Elliott: Integrated Circuit Fabrication Technology (Tata McGraw Hill)
POWER ELECTRONICS
Text Books:1) Thyristor and it’s application by M. Ramamoorthy
2) Thyristor Engineering by G.E. Mannual
3) Thyristor Theory and it’s application by R.K.Sugandhi and K.K.Sugandhi
4) Power Electronics by P.S. Bhimrao
5) Power Electronics Circuit’s ,Devices and it’s application by M.B. Rashid.
INDUSTRIAL MANAGEMENT
Reference Books:1) Information system for modern Management By Robert Murdick, Joel E.
Ross,
2) Management Information System by Kanter
3) Business ionization and Management By S.A. Sherlekar.
4) Business organization and Management By Dr. S.C. Saxena.
5) Management Process by R.S. Davar.
UHF AND MICROWAVE
Reference Books:1) Microwave devices and Circuits by Samuel Liao.
2) Microwave Engineering by Chatterjee.
3) Electronic and Radio Engineering by F.E. Terman.
4) Foundations of Microwave Engineering by R. Collins.
5) Introductions to Microwave theory and measurements by A.L. Lana.
6) Principle of Radar by Reitigness and Coats.
7) Microwave solid state devices by H.V.Shurmer.
8) Hund: Microwave Communications.
DIGITAL SIGNAL PROCESSING
Text Books:1) Oppenheim & Schafer “Discreat Time signal Processing” PHI Ltd. III
edition.
2) Roman Kuc, “Introduction to Digital signal processing”
Reference Books:1) Rabiner & Gold, “Theory and application of Digital signal processing”
2) Antoniou, “Digital Filters: Analysis & Design, Tata MG.
3) “Digital Signal Processing Theory and Application” – Proakis and Manolleis
PHI
ELECTRONIC SYSTEM DESIGN
Text Books:1) Regulated power hand book: Texas Inst.
2) Transistor circuit design’s Texas Inst.
3) Electronic, BJT, FET and Microelectronic : Anjelo
4) Operational amplifier design and application: Tobey
5) N.S.Linear data book.
ADVANCED MICROPROCESSOR APPLICATION
Text Books:1) Programming and Interfacing of 8086/8088 by D.V.Hall
2) Programming and Interfacing 8086 by Liu Gibson
3) Murray: 80286/80386 Assembly Language
Reference Books:1) Intel reference manual for a) Microprocessor and b) Microcontroller
2) Fernandaz : 80386 Assembly Language
3) Programming 80386 by Bud smith, mark Johnson, BPB
4) )
5) Micro controller- Peatman
SYSTEM PROGRMMING
Text Books:3) System Programming and Operating System – D.M.Dhamdhere (Tata
McGraw Hill)
4) Operating System By Milan Milinkor
RADAR ENGINEERING
Text Books:1) Introduction to Radar System: Skolnik (Tata McGraw Hill)
2) Principles of Radar: Heities & Coates (Tata McGraw Hill)
3) Introduction to Radar System : Kingslley (Tata McGraw Hill)
TELEVISION ENGINEERING
Text Book:1) Monochrome and colour Television by R.R. Gulati
2) Television Engineering by A.M. Dhake (Tata McGraw Hill)
3) Colour Television By Balli (Tata McGraw Hill)
SWITCHING THEORY
Text Books:1) Zvi Kohavi , “ Switching & Finite Automata Theory”
2) Lee S.C., “Modern Switching Theory & Digital Design”, P.Hall
BIOMEDICAL ENGINEERING
Text Books:1) Biomedical Instruments & Measurement – Cromwell (Tata McGraw Hill)
2) Biomedical Engg system- Cromwell (Tata McGraw Hill)
3) Biomedical Phenomenon – Robert Plonsay (Tata McGraw Hill)
4) Biomedical Engg : Khandpur (Tata McGraw Hill)
OPTICAL COMMUNICATION
Text Books:1) Optical Fibre communication, principles and practice by John M. Senior (
PHI)
2) Optical Fibre communication by – B. Keiser (Tata McGraw Hill)
3) Optical Communication system By J. Gower ( Printice- Hall of India
Pvt.Ltd.)
4) Kao: Optical Fibre system (Tata McGraw Hill)
SATELLITE COMMUNICATION
Text Books:1) Satellite Communication Technology DR K. Miya ( Lattice Co . Ltd)
2) Satellite Communication T. PRATT And BOSTAN (Waley and sons)
3) Digital Satellite Communication By Ha (Tata McGraw Hill)
BASICS OF DIGITAL COMMUNICATION
Text Books:1) Digital Communication – John G. Proakis (Tata McGraw Hill)
2) Digital Communication – Simon HayKin (Wiley Eastern Publication)
3) Modern Communication System (Principle and Application) LEON W.
COUCH II (PHI)
4) Computer Networks Third Edition – Andrew S. Tanenbaum (PHI)
PROCESS CONTROL AND INSTRUMENTATION
Text Books:1) Circuit Design of Electronic Instrumentation – Darold Wobschar (Tata
McGraw Hill)
2) Instrumentation Measurement of Feedback: Barry E. Jones
3) Digital Control: Nagratg
4) Fuzzy Logic: Klir. Prentice Hall
5) Electronic Instrumentation & Measurement Techniques : W.D.Cooper A.D.
Helfrick PHI.
6) Instrumentation Devices & System: C.S.Rangan, G.R. Sharma. V.S.V.
Mani .
7) Process Control : Marlin (Tata McGraw Hill)
8) Principles of Process Control : Patranabis (Tata McGraw Hill)
9) Process Control Systems : Shinshey (Tata McGraw Hill)
