Shivaji University, Kolhapur SYLLABUS/ STRUCTURE (REVISED from June- 2009) T.E. Electronics & Telecommunication Engineering (Semester – V)

TE (Electronics & Telecommunication Engineering) Semester -V

1. Microcontrollers

Teaching Scheme : Examination Scheme:

Lectures: 4 Hrs/Week Paper: 100 Marks

Practical: 2Hrs/week TW: 25 Marks

POE: 50 Marks

Section –I

Chapter 1: Introduction to MCS 51 (08)

Introduction to MCS 51 Family, Architecture, Functional Pin out diagram, Programming

Model, Memory Organization, Addressing Modes, Instruction Set: Classification, Reset

Circuit, Machine Cycle, Oscillator Circuit, Introduction to Assembly Language

Programming.

Chapter 2: Hardware overview: (06)

Input/Output Ports, Counters & Timers, Serial Communication, Interrupt.

Note: Structure of Above, Related S.F.R, Instruction, Associated Programs.

Chapter 3: Interfacing & Application (06)

Interfacing: RAM, ROM, LCD, ADC, DAC, Key board. Minimum System Design &

Application: Interfacing of Temperature Sensor (LM 35) 8051 Connection to RS 232.

Note: Assembly Language Programming to be done using Keil or Pinnacle Simulator

Section-II

Chapter 4: Introduction to PIC family (08)

CPU Architecture: Harvard architecture & pipelining, program memory considerations

Register file structure, Instruction set, addressing modes: Immediate, Direct, Indirect CPU

Registers: Status, W, FSR. INDF, PCLATH, PCL, Programming of above

Chapter 5: Hardware Overview: (06)

a. I/O ports &TRIS registers.

b. External Interrupts, Timers, CCP Module: Programmable period scalar, Event Counter,

Sleep Mode, PWM mode

c. ADC: Features, ADC use.

[Note: Structure related to above, SFR’s Simple programs]

Chapter 6: Special features: (06)

Configuration word, Oscillator configuration, Reset alternatives, low power operation,

concept if I2 C & associated Hardware

[Note: Syllabus need to be covered with reference to PIC 16FX]

Note: Programming of PIC to be done using MPLAB or similar software.

Text Books:

1. The 8051 Microcontroller By Ayala 3rd Edition

2. The 8051 Microcontroller & Embedded Systems

By Muhammad Ali Mazidi & Janice Gillispie Mazidi Pearson Edition L.P.E.

3. Design with PIC Microcontroller by John B. Peatman, Person Education.

4. Microchip PIC 16FX family microcontroller data sheet

Reference Books:

1. Architecture Programming, Interfacing & System design

By Rajkamal Pearson edition.

2. The 8051 Microcontroller & Embedded Systems

By Muhammad Ali Mazidi & Janice Gillispie Mazidi Pearson Second Edition

3. Programming the PIC microcontroller with MBASIC By Jack R. Smith

Term Work:

Minimum 10 experiments should be conducted

5 experiments on MCS 51 family Microcontroller & 5 experiments on Microchip PIC

Microcontroller should be performed. Minimum 50% experiments to be performed on

microcontroller kits.

TE (Electronics & Telecommunication Engineering) Semester -V

2. Signals & Systems

Teaching Scheme : Examination Scheme:

Lecturers : 3 hr/week: Theory : 100 Marks

Tutorial : 1hr/week Term Work: 25 Marks

Section-I

Unit-I: Introduction to Signals: (06)

Definition of signals, classification of signals: continuous time signals & discrete time signals,

even & odd signals, periodic & non-periodic , deterministic & non-deterministic, energy &

power,elementary signals: unit impulse, unit step, unit ramp, exponential & sinusoidal , basic

operations on signals.

Unit-II. Linear time- invariant systems: (08)

The representation of signals in term of impulses, discrete time LTI systems, the convolution

sum, continuous time-LTI systems, The convolution integral, properties of linear time invariant

systems, Systems described by differential, difference equations, block diagram representation

of LTI systems described by differential difference equations, Singularity functions.

Unit-III: Z transform: (08)

Introduction of Z-transform, ROC, properties of ROC, Unilateral Z-transform, properties of Z

transform:linearity, time shifting, time reversal, time scaling, convolution, differentiation,

multiplication, Parsevals theorem, initial value & final value theorem. Inverse Z-transform: PFE

method, long division method, residue method, convolution method. Transfer function(Poles &

Zeros), stability and causality. Representation of system via difference equation and solution of

it.

Section-II

Unit-IV: Fourier Series for Continuous Time & Discrete Time: (08)

Continuous time & discrete time Fourier series: development Fourier of Series,

derivation,properties of Fourier series: linearity, time shifting, frequency shifting, time reversal,

time scaling,time differentiation & time integration, multiplication , convolution.

Unit-V: Continuous Time & Discrete Time Fourier Transform: (08)

Basic concept of Fourier transform of functions: rectangular, impulse, signum. Properties of

Fourier transform: linearity, time shifting, frequency scaling, time scaling, multiplication, and

convolution.

Unit-VI:. Sampling: (04)

Representation of continuous time signals by its samples, The sampling theorem, Reconstruction

of signals from its samples using interpolation, The effect of under sampling, aliasing, Discrete

time processing of continuous time signals, Sampling in the frequency domain.

Text Books:

1. Simon Haykin, Barry Van Veen- ‘Signals & system’ - IInd Edition Wiley publication

2. Michael J. Roberts.-‘Fundamentals of signals & systems’- Tata McGraw Hill, 2007.

Reference Book:

1. Alan V. Oppenheim, Alan S. Wilsky, S. Hamid Nawab -‘Signals & system’ -IInd Edition -

Pearson Education.

2. H.A HSU, ‘Signals & system’ (Schaum’s out lines), Tata McGraw Hill

3. Smarajit Ghosh, ‘Signals & system’ Pearson Education.

4. Charles L. Philips, John M. Parr, Eve A. Rislein ‘Signals, system & transform’ , IIIrd Edition,

Pearson Education.

5. Ramesh Babu ‘Signals & system’ , SciTech Publication.

6. Benoit Boulet ‘Fundamentals of signals & System’ Thomsan Learning

Term work:

Term work shall consist of minimum 12 assignments, out of which minimum 05 problems to be

solved on graph paper.

TE (Electronics & Telecommunication Engineering)

Semester -V

3. Antenna And Wave Propogation

Teaching Scheme : Examination Scheme:

Lectures: 4 Hrs/Week Paper: 100 Marks

Practical: 2Hrs/week TW: 25 Marks

POE: 50 Marks

Section I

UNIT 1: INTRODUCTION TO ANTENNA (06)

Basic antenna parameters, pattern, beam area, radiation inversity, beam efficiency, directivity ,

gain and resolution, antenna aperture, effective height the radio communication link, field from

oscillating dipole, antenna field zone, shape-impendance consideration, linear elliptical

polarization poynting vector for elliptically and circularly polarized waves, The polarization

ellipse & the poincare sphere, loops, dipoles and slots, opened-out coaxial line antennas,

opened-out-2conductor antennas, opened out waveguide antennas, flat-sheet reflector antennas,

parabolic dish and dielectric lens antennas, end fire antennas, Broad bandwidth antennas, the

patch antennas.

UNIT 2: ANTENNA ARRAYS: (05)

Array of two isotropic point sources, nonisotropic but similar point source and the principle of

pattern multiplication, examples of pattern synthesis by pattern multiplication, nonisotropic and

dissimilar point sources, linear array of n isotropic point source of equal amplitude and spacing,

null directions for array of n isotropics point sources of equal amplitude and spacing effect .

UNIT 3: BROADBAND & FREQUENCY INDEPENDENT ANTENNA : (05)

Broadband basics, infinite and finite biconical antennas, directional biconicals, conicals, disk

cones and bow ties, the frequency-independent concept: rumesay’s principle, the Illinois story,

the frequency independent planner log-spiral antenna, frequency independent conical-spiral

antenna, the log periodic antenna, the composite yagi-uda corner-log-periodic array.

UNIT 4: ANTENNA FOR SPECIFIC APPLICATIONS (05)

Electrically small antenna, physically small antennas, antenna siting and the effect of

typical(Imperfect) ground, ground plane antennas, sleeve antennas, turnstile antennas,

superturnstile antennas, other omnidirectional antennas, circularly polarized antennas, the high

gain omni, submerged antennas, surface wave and leaky wave antennas, antenna design

consideration for satellite communication, receiving versus transmitting considerations,

bandwidth considerations, architecturally acceptable antennas, ILS(Instrument Landing

System), The LEO satellite link antenna.

Section II

UNIT 5: RADIATION (05)

Potential functions and the electromagnetic field, potential functions for sinusoidal oscillations,

the alternating current element, power radiated by current element, application to short

antennas, assumed current distribution, radiation from a quarter wave monopole and the half

wave dipole, sine integral and cosine integral, electromagnetic field close to an antenna,

solution of the potential equations, far field approximation.

7

UNIT 6: GROUND WAVE PROPOGATION (05)

Plane earth reflection, space wave and the surface wave, the surface wave, elevated dipole

antennas above a plane earth, wave tilt of the surface wave, spherical earth propagation,

tropospheric wave.

UNIT 7: IONOSPHERIC PROPOGATION (05)

The ionosphere, effective permittivity and conductivity of an ionized gas, reflection and

refraction of the waves by the ionosphere, regular and irregular variations of ionosphere,

attenuation factor, sky wave transmission calculations, effect of earth magnetic field. wave

propagation in ionosphere, Faraday rotation and measurement of total electron content, other

ionospheric phenomena.

UNIT 8: RADAR SYSTEM (04)

Fundamentals, RADAR performance factors, basic pulsed radar system, antennas and scanning,

display methods, pulsed radar systems, moving target indication, radar beacons, CW Doppler

radar, frequency modulated CW radar, phase array radars, plannar array radars.

Text Book:

1)Antenna for all Application- John D Kraus,third edition- TMH publication

2)Electronics Communication System- Keneddy Davis- 4th edition TMH publication

3) Electromagnetic Waves and Radiation Systems - Jordan and Balmain PHI publ.

Reference Books:

1) Microwave Devices and circuits – Samuel Liao (Pearson)

2) Networks, Lines and fields – John Rider ( PHI)

3) Foundations of Antenna Theory and Techniques – Vincent F. Fusco (Pearson)

4) Antennas and Wave Propagation – G. S. N. Raju ( Pearson)

Term Work:

Minimum 08 experiments should be conducted.

TE (Electronics & Telecommunication Engineering) Semester -V

4. Linear Integrated Circuits

Teaching Scheme : Examination Scheme:

Lectures: 3 hours/ Week Theory:100marks

Practical: 2 hours/Week Termwork:25 Marks

POE : 50 Marks

Section-I

Unit1: Introduction to op-amp (08)

Introduction to op-amp: definition, symbol, block diagram, ideal characteristics of Op-amp, AC

& DC analysis of dual input balanced output type differential amplifier. Comparative study of

other configurations of differential amplifiers, Analysis of typical op-amp, equivalent circuit,

op-amp parameters, equivalent circuit of op-amp, study of IC 741, CA3140

Unit 2: Op-amp configurations & frequency response: (04)

Open loop configuration, closed loop configurations, frequency Response, Stability

considerations, Frequency Compensation, Slew Rate.

Unit 3: Applications of Op-amp (08)

Summing, Scaling & Averaging Amplifiers using Op-amps, Differential amplifier using opamp,

Subtract or Circuit, Instrumentation amplifier, V to I & I to V Converter, Precision

Rectifiers, Log & Anti-log Amplifiers, Study of comparator, Schmitt Trigger, Window

Detector, Clippers & Clampers, Peak Detectors, Sample & Hold Circuits.

Section-II

Unit 4: Active Filters (08)

Introduction of filters, Analysis & Design of following filters, First & Second order High Pass

filter, First & Second order Low Pass filter, Band Pass filter (Narrowband & Wideband), Band

Reject filter (Narrowband & Wideband), All Pass Filter, Sallen & Key Filter Structure (First &

Second order), Chebyshev Filter.

Unit 5: Waveform Generators (08)

Analysis & Design of Square wave generator, Triangular wave generator, Sawtooth wave

generator. Analysis & Design of RC phase shift oscillator, RC wein bridge oscillator, Colpitts

oscillator, Hartley oscillator, Crystal oscillator, Multivibrator using op-amp.

IC 555 Timer, Block Diagram, Multivibrator using IC 555.

Unit 6: PLL (04)

Operating Principles, VCO-IC 566, PLL IC 565, PLL IC 565 applications, IC 4046

Text Books:

1. Op-amp & Linear Integrated Circuits by Ramakant Gaykwad. 4th ed. Pearson

Publications.

Reference Books:

1. Microelectronic Circuits Analysis & Design by Rashid

2. Linear Integrated Circuits Analysis , Design & Applications by Nair

3. linear integrated circuits-GANESH BABU(SCITECH PUB)

4. Op-amp & LIC-K.LAL KISHOR

Term Work: Minimum 08 experiments should be conducted.

TE (Electronics & Telecommunication Engineering) Semester -V

5. Optical Communication & Networks

Teaching Scheme : Examination Scheme:

Lectures: 3 Hrs/Week Paper: 100 Marks

Practical: 2Hrs/week TW: 25 Marks

Section – I

Unit – I: Overview of Optical Fiber Communication (3)

Basic Network Information Rates, The evolution of Optic System, Elements of

Optical Fiber Transmission Link, Simulation and Modeling tools.

Unit – II: Optical Fibers: Structures, Waveguiding and Fabrication (6)

The nature of Light, Basic Optical Laws and Definations, Optical Fiber Modes

and Configurations, Mode theory for waveguides, Single Mode Fibers, Graded

Index Fiber Structures, Fiber Materials, Fiber Fabrication, Mechanical

Properties of Fibers, Fiber Optic cables.

Unit – III: Signal Degradation in Optical Fibers (4)

Attenuation, Signal Distortion in Optical Waveguides, Pulse Broadenning in

Graded-Index Waveguides, Mode Coupling, Design Optimization of Single

Mode Fibers.

Unit – IV: Optical Sources (5)

Topics from Semiconductor Physics, Light-Emitting Diodes (LEDs), Laser

Diodes, Light Source Linearity, Modal, Partition and Reflection Noise,

Reliability Considerations.

Section - II

Unit – V: Photodetectors (4)

Physical Principal of Photodiodes, Photodetector Noise, Detectors Response

Time, Avalanche Multiplication Noise, Structure for InGaAs APDs,

Temperature effect of Avalanche Gain, Comparision of Photodetectors

Unit – VI: Optical Receiver Operation (4)

Fundamental Receiver Operation, Digital Receiver Performance, Detailed

Performance Calculations, Preamplifier Types, Analog Receivers.

Unit – VII: WDM Concepts and Components (4)

Operational Principles of WDM, Passive Components, Tunable Sources,

Tunable Filters

Unit – VIII: Optical Networks (6)

Basic Networks, SONET/SDH, Broadcast-and –Select WDM Networks,

Wavelength Routed Networks, Nonlinear Effects on Network Performance,

Performance of WDM + EDFA Systems, Solitons, optical CDMA, Ultrahigh

capacity Networks.

Note: Termwork shall consist of minimum 8 experiments based on above topics.

Text Books : 1) Optical Fiber Communication – Gerd Keiser. Third Edition ( TMH )

Ref. Books: 1) Optical Communication – Senior

2) Optical Fiber Communication – Agarwal ( Wiley)

3) Optical Fiber Communication - Grover

4) Optical Networks - Ramaswamy ( ELSEVIER INDIA )

TE (Electronics & Telecommunication Engineering) Semester -V

6. Programming Techniques (MATLAB)

Teaching Scheme Examination Scheme

Lectures : 2 hours/week

Practical : 2 hour/week Term work : 25 marks

UNIT- I (05)

Matlab basics variables, arrays , Multidimensional subarrays , Special values, displaying

output data, data files, scalar and array operations, Hierarchy of operations built-in matlab

functions, introduction to plotting, Debugging matlab programs.

UNIT- II (04)

Branching, Statements and logical data type, Branches, write & for loop logical arrays and

vectorization

UNIT- III (05)

User-defined& i/o functions, introduction to matlab functions, Variable passing in matlab, 3

optional arguments, Sharing data using global memory, Preserving data between calls to a

function, function functions, subfunctions, Private functions, Nested functions . complex

data , string functions , textread function, load and save commands, an introduction to

matlab file processing, file opening and closing , binary i/o functions, formatted i/o

functions, comparing formatted and binary i/o function, file positioning and status functions

UNIT- IV (03)

Handle graphics & gui , the matlab graphics system, Object handles, examining and

changing object properties, Using set to list possible property values, user-defined data,

finding objects, selecting objects with the mouse, creating and displaying a graphical user

interface, object properties, graphical user interface components, dialog boxes , menus..

UNIT- V (03)

Simulink basics introduction, simulink, modeling, solvers, simulating model using variables

from matlab, data import/export , state space modeling & simulation, creation of

subsystems,& Mass subsystem.

Text Books-

1) MATLAB programming for engineers- IIIrd edition- Stephen J. Chapman-Cenage Learning

2) MATLAB & its application in engineering Rajkumar Bansal, Ashokkumar Good,

Manojkumar Sharma- Person Education

3) MATLAB & Introduction with application Amos Gilat-Wiley

Reference Books-

1) Master in MATLAB-7 Duane Hanselman, Bruce Littlefiele- Person Education

2) MATLAB programming manual by Mathworks Inc

3) MATLAB & simulink Introduction to applications.- Partha S.Mallick-Scitech publications.

List of MATLAB programs

1) Program using branching statement

2) Program using looping statement

3) Program for matrix manipulation

4) Program using user defined function

5) Program for handling complex data

6) Program for File handling & string manipulation (Any two)

7) Program for creating & Displaying GUI (Any two)

8) Mini project based on any Engineering applications.( It should be completed within

Two or Three terms

TE (Electronics & Telecommunication Engineering) Semester -VI

1. Digital Signal Processing

Teaching Scheme Examination Scheme

Lectures : 4 hours/week Theory :100 marks

Practical : 2 hour/week Term work :25 marks

POE : 50 Marks

Section I

UNIT-I:The Discrete Fourier Transform and FFT (08)

Introduction to DSP system, DFT, Relation between DFT and Z Transform. Properties of

DFT, Circular convolution, DFT. & IDFT

FFT algorithms (DIT FFT & DIF FFT) implementation aspects, fast convolution signal,

segmentation (overlap save & overlap-add algorithm) correlation circular correlation,

IFFT,DFT properties of circular correlation.

UNIT-II : FIR Filter Design (06)

Characteristics of FIR filter, properties of FIR filter, digital N/W for FIR filter, frequency

sampling ,Fourier series & windowing method, filter design using Kaiser window,

Realization of FIR direct form structures cascade, parallel

UNIT-III : IIR Filter Design. (06)

Impulse invariant Tech. Bilinear transformation, Placement of poles & zeros, frequency

band transformation, analog filter approximation (Butterworth) quantization and rounding

problems, Effect of finite word length on stability and frequency response., Realization of

IIR direct form structures cascade, parallel

Section II

UNIT-IV: Adaptive filters (04)

Introduction to adaptive signal processing, Adaptive direct form FIR filters- LMS algorithm

UNIT-V: DCT & wavelet Transform (10)

Forward DCT, Inverse DCT, DCT as a orthogonal transformation.

Introduction to wavelets, time frequency representations, continues time wavelet, Continues

wavelet transform (CWT), Inverse CWT, Properties of CWT, Discrete wavelet transform,

STFT, Comparison of Fourier transform & wavelet transform ,Application of wavelets

transforms .

UNIT-VI : Application of Digital Signal Processing (06)

Voice processing Analysis of speech signal, Speech analysis, Synthesis, System

compression and coding channel vocoder, Sub band and coding

Image processing, Biomedical signal processing - ECG

Text Books-

1. Digital Signal Processing Principles, Algorithms and Application

By John G Prokis, Manolakis, Pearson Education publication

2) Digital Signal Processing Salivahanam, A Vallavaraj, C. Guanapriya, TMH

Ref. Books

1) Digital Signal Processing P. Ramesh Babu, Scitech publication

2) Digital Signal Processing Sanjeet Mitra, MGH

3) Digital Signal Processing- E.C. Ifeachor, Barrie W. Jervis

4) Digital Signal Processing- Ashok Ambardar, ( Cengage learning)

5) Digital Signal Processing- Dr. S.D.Apte, Willey India

List of Experiments.

Minimum 10 experiments

Experiments may be performs using Matlab/DSP simulator

1. Generation of DT signals

2. Convolution and correlation of signals

3. Computation of DFT & IDFT using standard formula

4. Computation of DFT using FFT algorithms

5. Computation of circular convolution

6. Design of FIR LPF,HPF,BPF,BRF filter using Fourier series method

7. Design of FIR LPF,HPF,BPF,BRF filter using frequency sampling method

8. Design of FIR filter using Kaiser window

9. Design of IIR LPF,HPF,BPF,BRF filter using impulse invariance method

10. Design of FIR LPF,HPF,BPF,BRF filter using bilinear transformation method

11. Design IIR filter using placement of poles & zeros.

12. Computation of DCT

13. Computation of wavelet transform

TE (Electronics & Telecommunication Engineering) Semester -VI

2. Digital Communication

Teaching Scheme : Examination Scheme:

Lectures – 3/week Theory – 100

Practical – 2/week POE – 50

TW – 25

Section – I

Unit – I: Random Signal Theory: (06)

Probability, Joint & conditional Probability, Probability mass function, statistical averages,

continuous random variables- PDF & Statistical averages, Random Processes, Time average,

Ergodicity, Power Spectral density of Stationary random processes.

Unit – II: Information Theory: (06)

Entropy, Information Rate, Shannon’s encoding theorem, communication channels- Discrete

& Continuous, Rate of information transmission over a discrete channel, Shannon–Hartly

theorem, implication of Shannon’s Theorem, Huffman’s coding & Shannon-Fanno Coding

techniques.

Unit – III: Source Coding: (06)

Quantization – Uniform, Non- Uniform, PCM, DPCM, ADPCM, Bandwidth Requirement,

SNR, DM, ADM, CVSD.

Section – II

Unit – IV: Digital Modulation Techniques and data formats: (06)

Unipolar, Bipolar ,RZ , NRZ, Transmission modes

ASK, FSK, PSK - coherent, Non- coherent, BPSK, DPSK, QAM. Comparision.

Unit – V: Baseband Transmission: (05)

Baseband pulse Shaping, Duobinary, M-ary Signalling, Pulse Shaping by digital methods,

eye diagram, ISI, scrambler, Unscrambler.

Optimum Receivers- Matched Filters, Correlation receivers, equalizers, Symbols & frame

synchronization.

Unit –VI: Channel Coding (07)

Types of Erros & codes, linear block codes, error detection & correction, Hamming codes,

Look-up table decoding., Binary Cyclic codes, Encoding using (n-k) bit shift registers,

Syndrome calculation. BCH, Burst codes, Convolution codes, Encoders, Decoders, Code

tree.

Books:

1) K. Sam Shanmugam – Digital & Analog Communication ( John Wiley)

2) Simon Haykin – Digital Communication (Wiley)

EXPERIMENT LIST : (Minimum 10 Experiments)

1. Study of PCM –TDM.

2. Study of Compander.

3. Study of DPCM.

4. Study of ADPCM.

5. Study of DM .

6. Study of ADM.

7. Study of CVSD.

8. Study of ASK, FSK & PSK.

9. Study of QPSK.

10. Measurement of bit error rate.

11. Study of Hamming Code.

12. Study of generation of cyclic codes.

13. Study of Eye Diagram using oscilloscope

14. Study of any digital modulation scheme using Matlab communication tool

15. Matlab practicals on random signals (Study of Continuous Random

Variable- probability, variance)

TE (Electronics & Telecommunication Engineering) Semester -VI

3. VLSI Design

Teaching Scheme : Examination Scheme:

Lecture:- 3 hrs/ week . Theory- 100 marks

Practical :- 2hrs/ week . TW - 25 marks

Section- I

Unit 1 :- Introduction to VHDL (04)

Level of abstraction. Need of HDL, VLSI Design flow, Features and capabilities of VHDL,

Elements of VHDL ( Entity Architecture , Library, Package, Configuration) , Identifiers,

literals, data types,operators.

Unit 2 :- Combinational logic design using VHDL ( 07)

Adder, subtractor, decoder, encoder, tristate buffer, multiplexer, parity generator, Parity

checker, comparator, using Concurrent & Sequential statements, wait statement, VHDL

design of encoder & decoder - for Huffman code, Shannon-fano code, Hamming code, BCH

code, Design for ALU.

Unit 3:- FSM Design Using VHDL (07)

Impediments to synchronous design, clock jitter, skew, gating the clock, asynchronous

inputs, meta-stability and synchronizer failure, VHDL implementation of counter, sequence

detector, Design of content addressable memory CAB.

Section- II

Unit 4:- VHDL Features (04)

Attributes (type, signal, signal value, array, block), wait statement, Simulators,

Event based simulator, Cycle based simulator, Flow chart for Event scheduling and delays,

inertial delay, Transport delay.

Unit 5:- Processor Design (07)

Design of General purpose processors- having instructions like LOAD, STORE, ADD,

SUB, IN, JZ, JPOS, HALT. Design of Data path, design of control unit, test bench using text

IO.

Unit 6:- PLD Architectures and Testing (07)

Xillnx 9500 series CPLD (XC 9572), Spartan II FPGA (XCS 2 s30), Testing : Fault models,

path sensitizing random test design for testability, Built-in self test and Boundary scan.

Referances Books:-

1. Fundamentals of Digital Logic with VHDL design , Tata – Mcgraw Hill- Stephen

Brown and Zvonko Vranesic

2. Principals of Digital System Design using VHDL, Cengage Learning -Roth John.

3. Digital Systems Design with VHDL and Synthesis An Integrated Approach, Wiley-

India Editio - K.C. Chang.

4. Xilinx data manual “ The Programmable Logic data Book”

5. VHDL a Design Oriented approach , Mcgraw-hill Compnies - S.S.Limaye.

6. Digital logic and microprocessor design with VHDL - Thomson Publication- Enoch O.

Hwang.

17

Practicals :

LAB Setup :

Model Tech. Modelsim simulator and Xillinx Web pack, Xilinx ISE Simulator VLSI universal

trainer for FPGA and CPLD of Xilinx

Experiments :

Minimum 08 experiments based on following design . Each design must be tested through

VHDL test bench.

Simulation, Synthesis, and Implementations using FPGA and CPLD Trainers:

1. Combinational logic : comparator, adder, barrel shifter, encoder & decoder for

communication codes.

2. Sequential logic : Counters withsync./async. Reset signal, universal shift

registers,sequence detector, arbiter, LFSR.

3. Singal port RAM Dual port RAM, Singal port RAM , FIFO

4. General purpose processor, ALU.

TE (Electronics & Telecommunication Engineering) Semester -VI

4. Subject : Industrial & Power Electronics.

Teaching Scheme : Examination Scheme:

Lectures: 4 Hrs/week Theory: 100 marks.

Practicals: 2 Hrs/week TW : 25 marks

Section-I

1. Semiconductor Power Devices : - (06)

Characteristics of power diodes, power transistors, power MOSFET, IGBT, SCRs, TRIACs,

DIAC and GTO. Rating of power devices, series and parallel connections of SCRs, SCR

protections- dv/dt, di/dt, over voltage and over current protection.

2. Firing circuits : - (04)

Turn ON Methods- study of single phase firing circuits using UJT, PUT, Diac, Triac, op amp.

Turn OFF Methods - Forced commutation circuits - Parallel Capacitance, resonant turn off,

external pulse commutation, auxillary thyristors/IGBT/ MOSEFT and load commutation.

(Class A to F)

3. Applications of Thyristors : - (03)

Static circuit breakers, over voltage protectors, zero voltage switch, integral cycle triggering,

time delay method, soft start method.

4. Controlled Rectifier Circuits : - (07)

a) Single Phase : - Half wave, full wave, half controlled and full controlled converters with R &

RL Load, effect of Freewheeling Diode. Calculations of performance parameters expected.

b) Three Phase: - Half wave, full wave, fully controlled converters with Resistive Load only.

Section-II

5. Inverters using MOSFET/IGBT’s: - (04)

Single phase bridge inverters, principle and operation of three phase inverters, Voltage control

techniques, harmonic elimination methods -PWM Technique IGBT MOSFET based (Analytical

treatment not expected )

6. AC and DC Drives : - (04)

a) DC Motor control- using single phase bridge converters, dual converters and choppers

b) 3-phase AC motor control- speed control of Induction Motor using Inverter, Study of

modern 3 – φ drives.

7. Programmable Logic controllers (PLC’s) - Ladder diagram, (06)

Fundamentals, symbol, PLC configurations, Block diagram, Fundamentals, PLC programming –

physical components vs. program components, Discrete position sensors, Encoders, transducers

and advanced sensors, switches.

8. Miscellaneous applications : - (06)

Non-drive applications such as induction heating and Dielectric heating, Switched mode power

supply (SMPS), Uninterrupted power supply (UPS), Industrial Ultrasonic- generators, detectors

and applications. Introduction to SCADA.

Text Books: -

1. P.C.Sen : Power electronics ; TMH

2. Chute and Chute : Electronics in industry ; MGH

3. General Electric : SCR manual, PH

4. Ned Mohan : Power electronics; John Willey Pub.

5. John R.Hackworth,

Federick D. Hackworth : Programmable Logic Controllers ; Pearson Education

Experiment List: -

Minimum 8 experiments out of following-

1 - 2 experiments on Topic 1 & 2

2 - 3 experiments on Topic 4

2 - 3 experiments on Topic 5 & 6

3 - 4 experiments on Topic 3, 7 & 8

TE (Electronics & Telecommunication Engineering) Semester -VI

5. Industrial Management & Operation Research

Teaching Scheme : Examination Scheme:

Lectures :3 hours/week Theory :100 marks

Term work :25 marks

Section - I

UNIT-I Function of management (06)

Planning Nature, Types, Improvement, Forecasting methods and importance, Organization

Importance and Principles, Staffing Procedure of staffing, performance, appraisal methods.

Directing Leadership styles, Motivation Theeries-Maslows, Herzbergs, Mc Greqors.

Communication Process types, Barriers and Remedies. Controlling- process.

UNIT-II Marketing (06)

Marketing and selling concept, marketing mix, Advertising- needs, types, advantages and

limitations. Material Management - Purchase and its importance, policies and procedure, Five

Rs of purchasing. Inventory Control - Inventory costs, EOG analysis, ABC analysis.

UNIT-III Costing (06)

Elements of cost, cost estimation procedure, Entrepreneurship- importance, Qualities, function

of entrepreneur, small scale industries procedure of starting SSI unit, Difference Schemes for

SSI. Forms of Business Organization Single, partnership, Joint stock, co-operative and state

and central Govt. Social responsibilities and business ethics- introduction.

Section II

UNIT IV (06)

-Operations Research Definition, methodology, Scope and limitations.

-Linear programming Concept, Formulation of LPP, Graphical method, Simplex Method.

UNIT- V (06)

Assignment Problems Introduction Balanced, Unbalanced, Prohibitive type of assignments,

Hungarian methods

Transportation Problems For finding basic feasible solution by Northwest corner method, Least

cost method and Vogets Approximation method.

UNIT- VI (06)

-project Management Programmed Evaluation and review technique, CPERTI, critical path

method (CPM), Network Analysis, Identifying critical path, Probability of completing the

project within the given time.

Reference Books:-

Industrial management

1) Management for Businesses and Industry C.S. George

2) Industrial Organization Bethel Atwater, Smithy, Stackman and Riggs

3) Essential of Management Koontz , Odonell

4) Management Stoner

5) Industrial Organization and management O.P. Khanna.

6) Industrial and Business management Telsan.

7) Principles of management- Tripathy and Reddy

8) Industrial management Tata McGraw Hill

Operation Research

1) Qualitative Techniques Vol. I & II, L.C.Jhamb sharma and Banga.

2) Operation Research W.L. Winston, Cengage Learning

3) Problems in OR Hira and Gupta

4) Operation Research H.A. Taha and A.M. Nafarajuan, Pearson Education

5) Operation Research A. Ravindra and D.T. Phillipos , Wiley , India

6) Introduction to Operation Research- Gillet Tata Mc graw Hill

7) Quantitative Analysis N.d. Vara Tata Mcgraw Hill

8) PERT and CPM (principles and Application )- L.S. Srinath

9) Fundamentals of OR Ac Koff Sasieni.

TERM WORK:-

1) Numerical on EOQ, ABC analysis.

2) Numerical on Unit no. 4

3) Numerical on Unit no. 5

4) Numerical on Unit no. 6

5) Case studies & Project proposal for SSI will be based upon following guidelines

Students are supposed to conduct survey of any small scale industry, submit report and give

presentation on the same.

a) type of industry

b) Location, area, vision, mission & quality policies of industry.

c) Products.

d) Production process, detailed flow diagram.

e) Organization structure.

f) Innovative systems in industry.

g) Fulfillment of community needs.

h) Pollution control techniques, care taken for control.

i) Technical Requirement- Man power, Consultancy, Expertise available in

industry, View of industry for enhancing industry institute interaction.

[NOTE: Numerical of above assignment must be solved using Computer.]

22

TE (Electronics & Telecommunication Engineering) Semester –VI

6. Electronic System Design

Teaching Scheme : Examination Scheme:

Lectures: 3 Hrs/Week Term Work: 25 Marks

Practical: 2 Hrs/Week OE : 50 Marks

1 DIGITAL VOLTMETER: (3)

Design of 4-digit numeric display circuit, Design of 3 ½ digit DVM, Study of IC

7107/7106.

2 PHASE LOCKED LOOP: (3)

Design of digital phase locked loops (cd 4046 & 565), It’s use in frequency synthesizer,

frequency & phase demodulation, Amplitude modulation, Dual Tone Multi Frequency Encoder

(DTMF).

3 AUDIO & VIDEO AMPLIFIERS: (6)

Audio amplifier: audio op-amp applications mike pre-amplifier with tone control, study of LM

386 Video amplifier: Theory, voltage gain, cover code o/p voltage, wiring precautions,

oscilloscope counter pre-amplifier, NE 592, filter applications.

4 TIMERS: (6)

Fundamentals of IC timers, CMOS timer & 2240 Binary Programmable Timer/counter, use of

timers for event or interval timing, pulse generation & shaping, design of frequency counter using

IC 74C926 for the time & event Counting.

5) Sensor Signal Conditioning : (10)

for sensors to get output in standard range

1) Temperature – RTD, Thermocouple, Semiconductor LM 35, AD549 and 1N4148

2) Strain gauge type transducers of 350 ohm/120 ohm bridge configuration

3) Variable capacitor transducer signal conditioning using Voltage to Time and Voltage to

Frequency conversion.

4) V to I and I to V converters for std input and output Standard input output ranges – 0 to

2V (DVM), 0 to 5 V(Micro controller), 4 to 20 mA (Industrial)

5) Optical encoders

process controllers using above transducers ON/OFF proportional PID controller

Algorithm implementation only for any 8-bit Micro controller based process controllers.

6. SWITCHED MODE POWER SUPPLY: (4)

Introduction to SMPS, IC LM3524, Design of SMPS using LM 3521,Step up, Step down , Invert

mode.

7. Micro Controller Based Design: (4)

Design of process controllers PID

Standard bus interface design.

Text Books.:-

1. Industrial Control Electronics :- Mickel Jacob.Prentice Hall ( for ch,5)

( Applications and Design)

2. Intersil Data Manual –( for Ch 1 & 4 )

3. Electronic System Design – B.S.Sonde ( Ch 1)

4. Operation Amplifier & LIC – Ramakant Gaikwad ,Pearson (ch 2)

5. Linear Data Manual – National ( Ch 6),

Ref. Books.

1. Electronics Design – Goyal Khetan, Khanna Publications

Term work :

Term work should consist of minimum 6 designs and one group of three students will do the mini

project on any one of the following list.

1. Design of 3 ½ digit DVM using TTL Ics.

2. Study of 7107/7106.

3. Design of frequency synthesizer using 565 PLL.

4. Design of frequency synthesizer using CD 4046 PLL.

5. Frequency measurement using 74C926

6. Interval measurement using 74c926.

7. Study of proportional controller.

8. Study of microcontroller based controller.

9. Study of LM3524 SMPS.

10. Study of audio & video amplifiers.

11. Study of PID Controller

12. Study & I to V & V to I converters.

Design experiments should be conducted as

1) Design of Hardware

2) Simulation of the Circuits.

T.E (Electronics and Telecommunication Engineering)

Semester - V

Replace Paper for Repeater Students only.

ELECTONIC COMMUNICATION ENGINEERING

Lectures 4 Hrs /Week Theory 100 Marks

Practical 2 Hrs/week TW 25 Marks

POE 50 Marks

Section-1

1) Frequency Modulation: ( 6 )

Overview of Frequency Modulation, Frequency spectrum of FM, Frequency

deviation, modulation index, FM wave equation, Bandwidth, power, phase

modulation, equivalence between phase and frequency modulation, noise triangle,

pre-emphasis, de-emphasis, comparison of noise in AM and FM.

2) FM modulated transmitters and Receivers: (7 )

Carrier oscillators, frequency changers, reactance modulators, Modulation of stereo

signal, power amplifiers. FM receivers: FM detectors, RF amplifiers, noise in RF

amplifiers, IF amplifiers, mixers, FM stereo receivers, FM receiver alignments.

3) Pulse modulation: (6 )

Sampling theorem, types of sample, pulse amplitude modulation, pulse code

modulation, pulse position modulation, Introduction to Synchronous and

Asynchronous TDM .

4) Facsimile transmission (3 )

Facsimile analog and digital transmission and reception, MODEM, Document

scanning and printing.

Section –II

5) Data formats: (6)

Unipolar, Bipolar, RZ, NRZ, Transmission modes, simplex, Half duplex, full

duplex, Asynchronous transmission. Amplitude shift keying, Frequency shift

keying, Phase shift keying, Differential phase shift keying.

6) Radar: (7 )

Basic principals, Rader performance, factors, pulsed system, MIT, Radar beacons,

CW radar, Doppler radar, FM/CW radar, phased array radar, planar array radar.

7) Spread spectrum modulation: (8 )

Introduction, direct sequence spread spectrum, use of spread spectrum with code

division multiple access (CDMA).

Text Books:

1) Communication System, Analog and Digital

R.P. Singh and S.D. Sapre (THM)

2) Electronic Telecommunication System (4th Edition)

George Kennedy and Bernard Devise (MGH)

Reference Books:

1. Introduction to Analog and Digital Communication

Simon Haykin

2. Principle of Digital Communication

Das, Mullik, Chattergy

3. Digital Communication

Sirnon Haykin

4. Principles of communication

Taub & Schilling (MGH)

5. Digital Communication

Prokias (MGH)

Term work should consist of minimum 8 experiments based on above syllabus.

List of Practicals

1) Amplitude Modulation

2) Frequency Modulation

3) Pulse Amplitude Modulation

4) Pulse width Modulation

5) Pulse position Modulation

6) Pulse Amplitude Modulation - TDM

7) PCM-TDM

8) FSK (freq. Shift keying)

9) PSK (Phase Shift keying)

10) Study of data format

Shivaji University, Kolhapur

Equivalences of T.E. E&TC for repeater students

Semester-V

E&TC (old) E&TC (new)

Transmission Lines & Antennas Antennas & Wave Propagation (TE-I)

Signals & Systems Signals & Systems (TE-I)

Electronic Communication Engineering. Electronic Communication System

( Replace paper for repeater students

only)

Industrial & Information Management Industrial Management ( TE-II)

Microprocessor & Peripherals Microprocessor & Peripherals ( SE-II)

Programming Techniques-II Programming Techniques ( MATLAB)

(TE-I)

Semester-VI

E&TC (old) E&TC (new)

Digital Signal Processing Digital Signal Processing(TE-II)

Microwave Engineering Digital Communication(TE-II)

Electronic System Design VLSI Design (TE-II)

Optical Communication Optical Communication &

Networks(TE-I)

Microcontrollers Microcontrollers (TE-I)

Hardware Mini Project Electronic System Design ( Mini Project)

(TE-II)