T. Y. B. Tech. Electronics & Telecommunication Engineering (Revised Syllabus)
Linear Integrated Circuits
L
4
T
---
P
2
Total
6
TA
25
Evaluation Scheme
Sessional Exam
CT
ESE PR
Total
20
80
--125
Credit
5
Objective: “The Natural world is inherently analog, indicating analog circuitry is needed to
conditioning physical signals from transducers and then process and control it for various
applications.”
A: THEORY
Unit
Contents
Op- Amplifier Fundamentals: Basic building blocks
of op-amplifier, differential amplifier fundamentalstypes, DC and AC analysis, current sources, current
mirrors, Active load, differential to single ended
1
conversion, Dc level shifter, output stage. An overview
of different types of op-amplifier, their peculiarities. Opamplifier parameters: frequency response, fast settling
time, offset nulling techniques, inverting and non
inverting configuration
Linear Application of Op-Amplifier: Summing
amplifier,
difference
amplifier,
instrumentation
amplifier, voltage to current converter with floating load
and grounded load, current to voltage converter,
2
integrator, differentiator & its application, comparator,
limitation of op-amp as comparator, Schmitt trigger,
comparator IC such as LM339, bandwidth and slew rate
limitation, precision rectifiers and peak detector
Non Linear Applications and Phase Lock Loops:
Introduction to Log, Antilog amplifiers, Analog & trans
conductance multipliers, Analog to Digital and digital to
analog conversion techniques, sample and hold circuit,
3
precision half wave & full wave rectifier,
instrumentation amplifier, Phase lock loop IC 565
operating principle, locking capture range, applications
of PLL : FM detector, FSK demodulator, Frequency
synthesizer, AM detector
Signal Generator: Sine wave generators, multi
vibrators, monolithic timers, triangular wave generators,
SAW tooth generators,, Voltage to Frequency converter,
4
frequency to voltage, converter, function generator IC
8038, Multi vibrators IC 555 based astable & mono
stable multi vibrators, monolithic waveform generators
IC 566 function generators
Active Filters Design: Transfer Function, first order
5
low pass active filters, standard second order low pass
1/56
Duration
Nature
12 Hrs
Theoretical
and
Analytical
08 Hrs
Theoretical
and
Analytical
10 Hrs
Theoretical
and
Analytical
08 Hrs
Theoretical
and
Analytical
10 Hrs
Theoretical
and
and high pass butter worth filters, KRC filters, multiple
feedback filters, state variable and bi quad filters, band
pass, band reject, all pass filters and its sensitivity
analysis, active filter performance considerations,
switched capacitor filters(first and second order)
Special Purpose Amplifiers: Audio Power amplifiers
LM 380 amplifier IC, Op-Amplifier based audio power
amplifier with current boost transistors, Power
MOSFETs, Pre amplifiers in audio system, tone control
6
circuits, audio mixers, video or wideband amplifiers, IC
used in radio receivers, TV receivers, tuned amplifiers
and tuner circuits
Monolithic IC Processes: Refining and growth of Si
crystals, Si wafer preparation, Diffusion of dopant
7
impurities, Ion implantation, thermal oxidation, photo
lithography, fine line lithography, relative plasma
etching, chemical vapor deposition, metallization
SECTION :A Chap 1,2,3
SECTION :B Chap 4,5,6,7
Analytical
08 Hrs
Theoretical
and
Analytical
04Hrs
Theoretical
and
Analytical
B : Practical / Drawing / Design / Workshop : Practical
Minimum 10 experiments should be conducted based on the list given below.
The assessment of the term work shall be done on the following criteria:
1. Continuous assessment
2. Performing the experiment in the Laboratory
3. Oral examination (conducted internally) on the syllabus and the term work mentioned
above
List of Practicals:
1. Op-Amp parameters
2. Op-amp applications: Inverting and Non Inverting amplifiers
3. Op- amp application: Integrator and Differentiator
4. Op-amp application: Comparator and Schmitt trigger
5. Design build and test Precision Rectifier (half wave and full wave)
6. Design, build and test Active filters
7. Design, build and test IC 555 as A-stable and Mono-stable multi vibrator
8. To measure and plot lock range, capture range and one application of IC 565 as Phase
lock loop .
9. Study of Function generator IC and audio power amplifier.
10. Study of Multiplier IC.
2/56
C. Suggested Text Books and References:
Sr. No.
Title
Author
1
Integrated Circuits
K.R Botkar
Op Amps and Linear
2
R.A Gaikwad
Integrated Circuits
3
Microelectronics
Millman Grabel
4
5
6
7
Design with operational
Amplifiers and Analog
Integrated circuits
Operational Amplifiers
Operational Amplifiers and
Linear Integrated Circuits
Linear Integrated Circuits
Sergio Franco
G.B Clayton
Coughlin,
Driscoll
D.Roy
Choudhary, Shail
Jain
3/56
Publication
Khanna Publication
Edition
9 Edition
PHI Publication
4th Edition
Tata McGraw Hill
2nd edition
Tata McGraw Hill
th
3rd edition
International Edition
PHI
New Age
International
4th Edition
Pattern of Question Paper
Faculty of Engineering and Technology
Third year (BTech) Electronics & Telecommunication Engg (Revised Course) Examination
November / December, May/June 200_
Linear Integrated Circuits
Time: 3 Hrs
Max Marks: 80
‘Please check whether you have got the right question paper’
N.B:i. All the questions are compulsory.
ii. Use separate answer book for each section.
iii. ……………………………………………
iv. ……………………………………………
Section A
Question No. 1
16 Marks
This Question will consist of questions from the entire chapter under section A mentioned in the
syllabus.
Question No.2 OR Question No.2
Question No.3 OR Question No.3
12 Marks
12 Marks
Note:
1. The topic may be intermingled in the questions.
2. The questions will be memory based, application based and understanding type.
Section B
Question No. 4
16 Marks
This Question will consist of questions from the entire chapter under section B mentioned in the
syllabus.
Question No.5 OR Question No.5
Question No.6 OR Question No.6
12 Marks
12 Marks
Note:
3. The topic may be intermingled in the questions.
4. The questions will be memory based, application based and understanding type.
4/56
T. Y. B. Tech. Electronics & Telecommunication Engineering (Revised Syllabus)
Microprocessor and Peripherals
L
4
T
---
P
2
Total
6
TA
25
Evaluation Scheme
Sessional Exam
CT
ESE PR
Total
20
80
25
150
Credit
5
Objective: 1.To train the students on fundamentals of Microprocessor 8085 and 8086.
2. To train the students on basic design issues of processors.
3. To study Assembly Language Programming and newer technology in Microprocessors.
A: THEORY
Unit
Contents
Introduction to Microprocessor : Overview of
1
Microprocessor
structure
and
its
operation,
Microprocessor evolution and its types
Microprocessor 8085 : Pin diagram, Architecture,
Addressing Modes, Timing diagram, Instruction Set,
2
Programming Techniques, Counters & time delays,
stack & subroutines, Interrupt structure, Code
conversion
Microprocessor System Peripheral and Interface :
Different data transfer schemes, need of I/O Ports,
3
memory mapping, memory mapped I/O & I/O mapped
I/O
Microprocessor System Peripheral and Interface :
Introduction to 8155,8255,8355, Interfacing of LED’s,
4
7 Segment display, ADC/DAC, Stepper motor & keys
with 8255
Peripherals:USART8251,Programmeable
Interval
5
Timer 8253,Programmeable Interrupt Controller 8259
interfacing with 8085
Microprocessor 8086 : Pin diagram, Architecture,
Addressing Modes, Timing diagram, Instruction Set,
6
Programming Techniques, Interrupt, Assembler
Directives, Memory & I/O mapping
Multiprocessor Configuration : Minimum mode
configuration,
Maximum
mode
configuration,
7
Introduction to NDP 8087,NDP data types, Introduction
to IOP 8089 ,Coprocessor Configuration, Closely
Coupled Configuration, Loosely coupled configuration
SECTION :A Chap 1,2,3,5
SECTION :B Chap 4,6,7
5/56
Duration
Nature
02 Hrs
Descriptive
20 Hrs
Descriptive
and
Logical
02 Hrs
Descriptive
10 Hrs
Descriptive
and
Logical
06 Hrs
Descriptive
and
Logical
10 Hrs
10 Hrs
Descriptive
and
Logical
Descriptive
B : Practical / Drawing / Design / Workshop : Practical
Minimum 10 experiments should be conducted based on the list given below.
The assessment of the term work shall be done on the following criteria:
1. Continuous assessment.
2. Performing the experiment in the Laboratory
3. Oral examination (conducted internally) on the syllabus and the term work
mentioned above
The assessment of practical examination shall be on the following criteria:
The practical examination shall consist of performing an experiment based on the
practical work done during the course, the record of the experiments submitted by the candidate
and viva -voce based on the syllabus.
List of Practicals:
1. Study of 8085 Microprocessor Kit used in laboratory.
2. Write a program to transfer a block of 10 bytes.
3. Write a program to add two 8- bit and 16 bit number using 8085.
4. Write a program to subtract two 8- bit and 16 bit number using 8085.
5. Write a program to multiply two 8- bit numbers.
6. Study of 8255, 8259, 8253 study card using a 8 bit Microprocessor.
7. Study of interfacing cards of LED, A/D and D/A converter.
8. Study of 8086 Microprocessor Kit used in laboratory.
9. Study of Min mode, Max mode of Microprocessor 8086.
10. Write a program to add and Subtract two 16- bit number using 8086.
11. Write a program to Multiply and divide two 16- bit number using 8086.
12. Write a program to copy 10 bytes of data from source to destination using 8086.
C. Suggested Text Books and References:
Sr. No.
1
2
3
4
5
6
7
8
9
Tiltle
Microprocessor, Architecture,
Programming and Application
0000 to 8085
Fundamentals of
Microprocessor and
Microcomputer
Microprocessor and
Programming Logic
Advanced Microprocessors
and Peripherals
Microprocessors and
Interfacing
The Intel Microprocessors
Architecture, Programming &
Interfacing
Microprocessor and
Microcomputer Based System
Design
The 8086/8088 Family –
Design, Programming and
Interfacing
Author
Ramesh
Gaonkar
Shridhar Ghosh
Publication
Willey Eastern Ltd
Edition
Fourth
Edition
Prentice Hall India
Dhanpat Rai and
Sons, New
Delhi.
Prentice-Hall
India Pvt. Ltd.
Second
Edition
Ray &
Bhurchandi
Tata McGraw Hill
2nd Edition
D. Hall
Tata McGraw Hill
Revised
2nd Edition
Berry Bray
C.R.Sharma
Pearson Education
B. Ram
K.L. Short
Mohammad
Raffiquazaman
Uffenbeck
6/56
Universal Book
Stall, New Delhi
Prentice Hall India
Pattern of Question Paper
Faculty of Engineering and Technology
Second year (BTech) Electronics & Telecommunication Engg (Revised Course)
Examination
November / December, May/June 200_
Microprocessor and Peripherals
Time: 3 Hrs
Max Marks: 80
‘Please check whether you have got the right question paper’
N.B:v. All the questions are compulsory.
vi. Use separate answer book for each section.
vii. ……………………………………………
viii. ……………………………………………
Section A
Question No. 1
16 Marks
This Question will consist of questions from the entire chapter under section A mentioned in the
syllabus.
Question No.2 OR Question No.2
Question No.3 OR Question No.3
12 Marks
12 Marks
Note:
1. The topic may be intermingled in the questions.
2. The questions will be memory based, application based and understanding type.
Section B
Question No. 4
16 Marks
This Question will consist of questions from the entire chapter under section B mentioned in the
syllabus.
Question No.5 OR Question No.5
Question No.6 OR Question No.6
12 Marks
12 Marks
Note:
3. The topic may be intermingled in the questions.
4. The questions will be memory based, application based and understanding type.
7/56
T. Y. B. Tech. Electronics & Telecommunication Engineering (Revised Syllabus)
Digital Communication & Information Theory
L
4
T
---
P
2
Total
6
TA
25
Evaluation Scheme
Sessional Exam
CT
ESE PR
Total
20
80
25
150
Credit
5
Objective: “To understand the basics of Digital communication & Information coding theory.”
A: THEORY
Unit
Contents
Fourier Transforms: Basics of Fourier Series & Fourier
Transform, Amplitude & phase spectrum plotting , Properties
of Fourier Transform pair, Energy & power of the signals,
1
Energy Spectral density, Power spectral density ,ideal low
pass & Band pass filter designing (based on psd)
Pulse Modulation Schemes: A) Review of PAM,PDM,PPM
Schemes, Sampling theorem in time & frequency domain ,
Aliasing effect, Natural sampling & flat top Sampling ,proof
of sampling theorem for low pass filter & band pass filter
2
B)PCM Generation & Reconstruction , Linear & non linear
quantization, channel BW, noise in PCM, Study of blocks of
DPCM , DM , ADM techniques
Digital Carrier Line Coding & Multiplexing: Line coding &
its properties ,NRZ& RZ types, signaling format for unipolar ,
polar , bipolar & Manchester coding & their power spectra,
3
Fundamentals of time division multiplexing , freq. division
multiplexing
Digital Carrier Modulation & Demodulation Techniques:
Introduction to OOK(ASK) ,FSK, PSK, BPSK ,DPSK ,MSK,
QPSK, 16 bit QAM ,Matched filter correlation receivers,
4
error probabilities of all modulation schemes & their
comparison
Error Detection & Correction: Parity check codes, code
vectors, & hamming distance, FEC & ARQ systems, Linear
5
Block codes, cyclic codes, convolution coding & decoding
technique, Turbo coding & decoding , Data encryption
Probability & Random Signal Theory : Conditional
Probability, Statistical Independence , Baye’s theorem,
6
random variables: discrete & continuous , Joint distributions,
Binomial Poisson & normal distribution, Random processes
Information & Detection Theory: Amount of information,
Rate of information ,Shannon’s theorem, Gaussian & PCM
channel capacity ,probability stochastic processes, Information
measures & source coding ,information transmission on
7
discrete channels, continuous channels, signal space, optimum
digital detection
8/56
Duration
Nature
08 Hrs
Analytical
and
Descriptive
10 Hrs
Analytical
and
Descriptive
06Hrs
Analytical
and
Descriptive
06Hrs
Analytical
and
Descriptive
08 Hrs
Logical
06 Hrs
Descriptive
08Hrs
Descriptive
Spread Spectrum: Direct Sequence Spread spectrum ,
Frequency hopping Spread spectrum, CDMA systems based
on FHSS, Synchronization of Spread Spectrum
SECTION : A Chap 1,2,3,4
SECTION : B Chap 5,6,7,8
8
08Hrs
Descriptive
B : Practical / Drawing / Design / Workshop : Practical
Minimum 10 experiments should be conducted based on the list given below.
The assessment of the term work shall be done on the following criteria:
1. Continuous assessment
2. Performing the experiment in the Laboratory
3. Oral examination (conducted internally) on the syllabus and the term work mentioned above
The assessment of practical examination shall be on the following criteria:
The practical examination shall consist of performing an experiment based on the
practical work done during the course, the record of the experiments submitted by the candidate
and viva -voce based on the syllabus.
List of Practicals:
1.To prove Sampling theorem in time domain
2.To study & observe waveforms for natural & flat top sampling
3.To study & observe waveforms for Modulation & Demodulation of PAM
4.To study & observe waveforms for Modulation & Demodulation of PPM
5.To study & observe waveforms for Modulation & Demodulation of PWM
6.Generation of PCM signals & recovery of information
7. Generation of ASK signals & recovery of information
8. Generation of FSK signals & recovery of information
9. Generation of PSK,DPSK signals & recovery of information
10.Generation of Delta modulation & recovery of information
11.Generation of adaptive delta modulation & recovery of information
12.Use of TDM & FDM for increasing number of channels.
13.To study error control coding by using Hamming codes.
C. Suggested Text Books and References:
Sr.
No.
1
2
3
4
5
6
7
8
Tiltle
Digital & Analog
Communication System
Principles of Communication
System
Author
R.P. Singh ,
S.D. Sapre
K.Sam
Shanmugam
Taub
Schilling
Communication System
Simon Haykins
Wiley India
Pvt.Ltd
R.Bose
Tata McGraw Hill
2nd
McGraw Hill
2nd
Communication System
Information theory , Coding&
Cryptography
Digital Communication System
Principles of Digital
Communication
Digital Communication
Publication
Tata McGraw Hill
Wiley India
Pvt.Ltd.
Tata McGraw Hill
Edition
Student
edition
Student
edition
2nd
Student
edition
Harold kolimnres
P. Chakraborthy
Proakis J.J.
9/56
Pattern of Question Paper
Faculty of Engineering and Technology
Third year (BTech) Electronics & Telecommunication Engg (Revised Course) Examination
November / December, May/June 200_
Digital Communication and Information Theory
Time: 3 Hrs
Max Marks: 80
‘Please check whether you have got the right question paper’
N.B:ix. All the questions are compulsory.
x. Use separate answer book for each section.
xi. ……………………………………………
xii. ……………………………………………
Section A
Question No. 1
16 Marks
This Question will consist of questions from the entire chapter under section A mentioned in the
syllabus.
Question No.2 OR Question No.2
Question No.3 OR Question No.3
12 Marks
12 Marks
Note:
1. The topic may be intermingled in the questions.
2. The questions will be memory based, application based and understanding type.
Section B
Question No. 4
16 Marks
This Question will consist of questions from the entire chapter under section B mentioned in the
syllabus.
Question No.5 OR Question No.5
Question No.6 OR Question No.6
12 Marks
12 Marks
Note:
3. The topic may be intermingled in the questions.
4. The questions will be memory based, application based and understanding type.
10/56
T. Y. B. Tech. Electronics & Telecommunication Engineering (Revised Syllabus)
Power Electronics
L
4
T
---
P
2
Total
6
TA
25
Evaluation Scheme
Sessional Exam
CT
ESE PR
Total
20
80
25
150
Credit
5
Objective: “This subject provides fundamental knowledge of power electronics systems which
are commonly used in industries as well as in electrical transmission systems. It also establishes a
sound platform to study and design the drive systems.”
A: THEORY
Unit
Contents
Duration
Introduction to Power Electronics System: Scope of power
electronics, Thyristor family, DIAC, TRIAC, SCR, IGBT, GTO,
Power BJT, Power MOSFET ,Device structure, mounting
08 Hrs
1
techniques, technical specifications,& basic electrical
characteristics with Technical specifications
Thyristor Triggering & Commutation Circuits: Basic
aspects, R-C triggering, Anode triggering ,UJT relaxation
oscillator ,Digital processor based triggering scheme, design
08 Hrs
2
aspects of triggering circuits, Natural & forced commutation
circuits , design aspects
Protection of Power Devices: Concept of Thyristor protection
,steady state & transient protection ,snubber circuits , Heat sink
06Hrs
3
Design aspects, analytical aspects & performance parameters for
protection circuits
Controlled Rectifiers & Converters: single phase half wave
,full wave & semi converter with resistance & inductive loads,
effect of freewheeling diodes, power factor improvement
techniques, Fourier analysis of performance of single phase half 12 Hrs.
4
wave ,full wave & semi converters with resistive & inductive
loads , derivations for supply current & output voltage ,single
phase & three phase dual converter
Inverter: Basic concept, classification ,single phase & three
phase circuits with mathematical analysis, voltage control
08 Hrs.
5
techniques, design of digital processor based inverter circuit for
consumer application
Cycloconverters: Basic concept ,classification ,single phase &
three phase circuits , mathematical derivations for reduction of
06 Hrs.
6
output harmonics ,introduction to AC voltage controller,
Applications of AC voltage controller
Choppers : Basic concept ,classification ,step up & step down
choppers ,design for source filter, Applications of choppers & 08 Hrs.
7
performance parameters
Applications of Power Electronics: Light dimmer circuit ,
UPS, SMPS, Industrial alarms, PSPice simulation of power
04 Hrs.
8
electronics circuits
11/56
Nature
Logical
and
Descriptive
Descriptive
And
Numerical
Descriptive
Descriptive
and
Numerical
Descriptive
and
Numerical
Descriptive
and
Numerical
Descriptive
and
Numerical
Logical
SECTION :A Chap 1,2,3,4
SECTION :B Chap 5,6,7,8
B : Practical / Drawing / Design / Workshop: Practical
Minimum 10 experiments should be conducted based on the list given below.
The assessment of the term work shall be done on the following criteria:
1. Continuous assessment
2. Performing the experiment in the Laboratory
3. Oral examination (conducted internally) on the syllabus and the term work mentioned above
The assessment of practical examination shall be on the following criteria:
The practical examination shall consist of performing an experiment based on the practical
work done during the course, the record of the experiments submitted by the candidate and viva -voce
based on the syllabus.
List of Practicals:
Minimum 10 experiments from following list to be conducted:
1. To plot V-I Characteristics of SCR/DIAC/TRIACIGBT/MOSFET
2. To study SCR Triggering circuits and observe the output
3. To study SCR commutation circuits and observe the output
4. To study SCR protection circuits and observe the output
5. To study Single phase controlled rectifier on various loads and observe the output
6. To study Step up chopper and observe the output
7. To study Step down chopper and observe the output
8. To study Series inverter and observe the output
9. To study Parallel inverter and observe the output
10. To study Single phase cycloconverters and observe the output
11. To study Light Dimmer circuit
12. To study SMPS Circuit
13. To study AC voltage controller circuit
C. Suggested Text Books and References:
Sr.
No.
Title
1
Power Electronics
M. Rashid
2
Power Electronics
Dr. Bhimbra
3
4
5
Power Electronics
Thyristor & Their Applications
S.C.R. Manual
P.C. Sen
M. Ramamurthy
G.E.
Author
12/56
Publication
Edition
Pearson
Fourth
Khanna Publishers
Fourth
PHI / EEE
PHI / EEE
GE Manuals
Fourth
second
-----------------
Pattern of Question Paper
Faculty of Engineering and Technology
Third year (BTech) Electronics & Telecommunication Engg (Revised Course) Examination
November / December, May/June 200_
Power Electronics
Time: 3 Hrs
Max Marks: 80
‘Please check whether you have got the right question paper’
N.B:xiii. All the questions are compulsory.
xiv. Use separate answer book for each section.
xv. ……………………………………………
xvi. ……………………………………………
Section A
Question No. 1
16 Marks
This Question will consist of questions from the entire chapter under section A mentioned in the
syllabus.
Question No.2 OR Question No.2
Question No.3 OR Question No.3
12 Marks
12 Marks
Note:
1. The topic may be intermingled in the questions.
2. The questions will be memory based, application based and understanding type.
Section B
Question No. 4
16 Marks
This Question will consist of questions from the entire chapter under section B mentioned in the
syllabus.
Question No.5 OR Question No.5
Question No.6 OR Question No.6
12 Marks
12 Marks
Note:
3. The topic may be intermingled in the questions.
4. The questions will be memory based, application based and understanding type.
13/56
T. Y. B. Tech. Electronics & Telecommunication Engineering (Revised Syllabus)
Electronic Circuit Design Technology
L
4
T
----
P
2
Total
6
TA
25
Evaluation Scheme
Sessional Exam
CT
ESE PR
Total
20
80
--125
Credit
5
Objective: “One of the most challenging areas which explore research abilities associated to
design and product engineering in electronics design. This subject basically integrates the
knowledge of electronic devices and circuits, semiconductor Physics, linear integrated circuits,
digital electronics and communication systems and explores the opportunities in design
engineering by motivating students in the multidimensional areas of electronics and
telecommunication.”
A: THEORY
Unit
Contents
Duration
Nature
Introduction to Electronics Design:
01
Scope current statues, design phase and manufacturing
02 Hrs
Descriptive
phase
Design of Regulated Power Supply:
IC 723 voltage regulators, IC 78XX, IC 79XX family
Logical and
02
06 Hrs
of dual tracking regulators, LM 317 family of voltage
Numerical
regulators protection circuits for regulators
Design of Electronic Voltmeters:
Logical and
03
Basic AC/DC voltmeter, multi ranges voltmeters, DVM
06 Hrs
Numerical
chip IC 7106/07 Based design of voltmeters
Design of Oscillators:
Logical and
04
Wein bridge oscillators, crystal oscillator colpitts
06 Hrs
Numerical
oscillator, and IC 8038 Based function generator.
Design of Operational Amplifier Circuits:
Logical and
05
An
instrumentation amplifier, an integrator,
04 Hrs
Numerical
differentiator, Schmitt trigger
Design of Audio Systems:
Design of power amplifiers- conventional class A,
Logical and
06
Class C and IC based approach for power amplifier
06 Hrs
Numerical
design TBA 810 design of graphic equalizer and tone
control circuits, Concept of surround sound
Design of Counters:
Basic design procedure, synchronous and asynchronous
Logical and
07
08 Hrs
up, down counters, and excitation table for counter
Numerical
design, application of counters
Design of Communication System:
Logical and
08
AM receiver design, FM receiver design, IF amplifier
06 Hrs
Numerical
Design, satellite transponder Design
Design of Process Control and Instrumentation
System: A real time DDC/SCADA design for
Logical and
09
06 Hrs
continuous process plants with Multichannel process
Numerical
variables, software and hardware aspects
Design of Consumer Electronics System:
10
05 Hrs
Logical
A DTH receiver system, Microwave oven, Principle,
14/56
11
construction, working, technical specifications and
performance parameters
Specific Design Considerations:
Ground rules in PCB Design, thermal design aspects,
enclosure design and electromagnetic interference
issues, design reliability issues
05 Hrs
Logical and
Descriptive
SECTION : A Chap 1,2,3,4,5,6
SECTION : B Chap 7,8,9,10,11
B: Practical/ Drawing/Design/Workshop : Practical
Minimum 10 experiments should be conducted based on the list given below.
The assessment of the term work shall be done on the following criteria:
1. Continuous assessment
2. Performing the experiment in the Laboratory
3. Oral examination (conducted internally) on the syllabus and the term work mentioned
above
List of Practicals: To design a circuit by using:
1.
IC 723 Low Voltage Regulators, IC 723 High Voltage Regulators
2.
IC 723 Variable Voltage Regulators
3.
IC 78XX / 79XX Dual Tracking Regulator,
4.
LM 317 Family Of Voltage Regulator
5.
DVM Using IC7107
Multirange DC Voltmeter
6.
7.
Crystal Oscillator , Wein Bridge Oscillator, Colpitts Oscillator
8.
IC 8038 Based Function Generator
9.
Tone Control And Graphic Equalizer
10. IC TBA 810 Based Power Amplifier
11. Schmitt Trigger
12. Differentiator And Integrator
13. Up/ Down Counter
14. AM Detector Stage
15. DTH Receiver System
16. Microwave Oven
17. EMI Shield Enclosure
C: Suggested Text Books and References:
Sr.No.
Title
01
Monographs On Electronics Design
02
Electronics Circuit Design
Operational Amplifiers And Linear Integrated
03
Circuits
04
Fundamental Of Satellite Communication
05
Digital Electronics
06
Process Control And Instrumentation
07
National Semiconductor Manual
Electronic Circuit Design
08
09
Computer Based Industrial Control
15/56
Author
Khetan And Goyal
D.S. Mantri
Ramakant Gaikwad
Publication
PHI
Nikita
PHI/EEE
K.N. Raja Rao
R.P. Jain
C.D. Johnson
-----------Dr. T.R. Sontakke
And S.N. Talbar
Krishna Kant
PHI/EEE
PHI/EEE
PHI/EEE
IEEE
Pearson
Pattern of Question Paper
Faculty of Engineering and Technology
Third year (BTech) Electronics & Telecommunication Engg (Revised Course) Examination
November / December, May/June 200_
Electronic Circuit Design Technology
Time: 4 Hrs
Max Marks: 80
‘Please check whether you have got the right question paper’
N.B:xvii.All the questions are compulsory.
xviii.Use separate answer book for each section.
xix. ……………………………………………
xx. ……………………………………………
Section A
Question No. 1
16 Marks
This Question will consist of questions from the entire chapter under section A mentioned in the
syllabus.
Question No.2 OR Question No.2
Question No.3 OR Question No.3
12 Marks
12 Marks
Note:
1. The topic may be intermingled in the questions.
2. The questions will be memory based, application based and understanding type.
Section B
Question No. 4
16 Marks
This Question will consist of questions from the entire chapter under section B mentioned in the
syllabus.
Question No.5 OR Question No.5
Question No.6 OR Question No.6
12 Marks
12 Marks
Note:
3. The topic may be intermingled in the questions.
4. The questions will be memory based, application based and understanding type.
16/56
T. Y. B. Tech. Electronics & Telecommunication Engineering (Revised Syllabus)
Electronic Measurements
Evaluation Scheme
Sessional Exam
Credit
L
T
P Total TA
CT
ESE PR
Total
2
-----2
--10
40
--50
2
Objective: “The contents aims to developed the knowledge of the student in the direction of
solving the practical problem in the engineering and technology.”
A: THEORY
Unit
Contents
Qualities of Measurements: Introduction, performance
characteristics, static characteristics, error in measurement,
01
types of error, sources of error, dynamic characteristics,
statistical analysis, standard, electrical standards
Voltmeter, Ammeters & Miliammeter: DC ammeter,
Multirange ammeters, aryton shunt, RF ammeter,
measurements of very large currents by thermocouples. Basic
02
meter a DC voltmeter, Multirange voltmeter, TVM, solid
state voltmeter, differential voltmeter, AC voltmeter with
three rectifier, Multirange AC voltmeter, series and shunt
types ohmmeter, multimeter operation
Oscilloscope: CRT features, block diagram of oscilloscope,
delay line in triggered sweep, dual beam CRO, VHF sampling
oscilloscope, three method of frequency measurement by
03
Lissajous method, same for phase measurement. Delayed
sweep, digital storage oscilloscope, fiber optic CRT recording
oscilloscope
Signal Generators: Fixed & variable frequency AF
oscillator, AF sine and square wave generator, function
04
generator, square and pulse generator, random noise
generator, TV sweep generator, beat frequency oscillator,
standard specifications of a signal generator
Wave Analyzer and Harmonic Distortion: Basic wave
analyzer, frequency, heterodyne wave, harmonic distortion,
05
spectrum, digital Fourier analyzer, practical FFT spectrum
analysis using a waveform
Measuring Instruments: Output power meters, field strength
meter, stroboscope, phase meter, vector, impedance meter, Q06
meter, LCR bridge, RX meter, megger, analog pH meter,
transistor tester
Bridges: Wheat stone’s bridge, Kelvin, Kelvin double bridge,
bridge controlled circuits, Microprocessor controlled bridge,
07
AC bridges, capacitance, inductance, Maxwell, hay’s,
Schering’s, wien, wagner’s, resonance bridge
Recorders: Strip chart, galvanometer, null, circular, X-Y,
08
magnetic, frequency, digital data, objective and requirements
of recording data Recorders
17/56
Duration
Nature
03Hrs
Descriptive
05Hrs
Descriptive
04Hrs
03 Hrs
Descriptive
And
Analytical
Descriptive
And
Analytical
04 Hrs
Logical
04Hrs
Logical
04 Hrs
03Hrs
Analytical
Descriptive
SECTION: A Chap 1,2,3,4
SECTION: B Chap 5,6,7,8,
B: Practical/ Drawing /Design/ Workshop: ------------------C: Suggested Text Books And References:
Sr.
No.
01
Title
Author
Publication
Electronics Instrumentation
H.S. Kalsi
TMH 2nd
edition
02
Electrical and Electronics Instrument
Measurement
Electronics Instrumentation Measurement
Electronics Instrumentation Measurement
Electronics Instrumentation Measurement
A.K. Sawhney
03
04
05
18/56
Oliver Cage
Terman and Petit
Cooper and
Helfrick
MGH
Pattern of Question Paper
Faculty of Engineering and Technology
Third year (BTech) Electronics & Telecommunication Engg (Revised Course) Examination
November / December, May/June 200_
Electronic Measurements
Time: 2 Hrs
Max Marks: 40
‘Please check whether you have got the right question paper’
N.B:xxi. All the questions are compulsory.
xxii.Use separate answer book for each section.
xxiii.……………………………………………
xxiv.……………………………………………
Section A
Question No. 1
08 Marks
This Question will consist of questions from the entire chapter under section A mentioned in the
syllabus.
Question No.2 OR Question No.2
Question No.3 OR Question No.3
06 Marks
06 Marks
Note:
1. The topic may be intermingled in the questions.
2. The questions will be memory based, application based and understanding type.
Section B
Question No. 4
08 Marks
This Question will consist of questions from the entire chapter under section B mentioned in the
syllabus.
Question No.5 OR Question No.5
Question No.6 OR Question No.6
06 Marks
06 Marks
Note:
3. The topic may be intermingled in the questions.
4. The questions will be memory based, application based and understanding type.
19/56
T. Y. B. Tech. Electronics & Telecommunication Engineering (Revised Syllabus)
Development of Skills-V
L
---
T
---
P
2
Total
2
TA
50
Evaluation Scheme
Sessional Exam
CT
ESE PR
Total
------50
Credit
1
Objective: i) Understanding the concept of quality and applications of quality tools.
ii) Understanding the Entrepreneurship Skills.
iii) Understanding the Technical writing skills.
A: THEORY
Unit
Contents
Quality: Definitions of Quality, Quality control, Quality
1
Assurance, Dimensions of Quality circle details.
2.Problem Solving Techniques: (Old & New tools)
A. Old Tools:
i)Tally Sheet/Check Sheet
ii)Pareto Diagram
iii)Cause & Effect Diagram
2
iv)Graphs/Histogram/Run Chart
v)Stratification
vi)Scatter Diagram
vii)Control Chart
B) New Tools:
i)Affinity Diagram
ii)Relation Diagram
iii) Tree Diagram
iv) Process Decision Program Chart
v) Arrow diagram
vi) Matrix Data Analysis Diagram
C) Helpful Techniques:
i) Brainstorming
ii) Flow Chart
Definition purpose, procedure & examples of all the
above said tools
3) Entrepreneurship:
3
Definitions, need, significance, success stories of few
exceptional entrepreneurs
4) Marketing Management:
4
Definitions of marketing, objectives, types of markets,
marketing techniques
Writing Skills:
5
Writing of Technical /Project reports, Writing Technical
Research papers
SECTION :A Chap ---SECTION :B Chap ----
20/56
Duration
Nature
02 Hrs
Descriptive
05Hrs
Descriptive
05Hrs
Descriptive
02Hrs
Descriptive
06 Hrs
Descriptive
06 Hrs
Descriptive
04Hrs
Descriptive
B : Practical / Drawing / Design / Workshop: Practical
Term work shall consist of ten assignments as follows:
1) Three assignments on any three old QC tools.
2) Three assignments on any three new QC tools.
3) One assignment each on Entrepreneurship, Marketing Management, Writing Skills &
Quality.
C. Suggested Text Books and References:
Sr. No.
1
2
3
4
Quality
Analysis
Tiltle
Planning
Author
and
Publication
Juran
Handbook of Effective
Technical Communications
Tyler G. Hicks,
Carl M.
Valorie, Sr
Technical Writing Process
and Product
Thesis and Assignment
Writing
Saron J. Gerson
Prentice Hall
/ M. Gerson
Anderson,
Wiley Eastern
Dustan, Poole
Limited.
21/56
McGraw Hill Book
Company
Edition
T. Y. B. Tech. Electronics & Telecommunication Engineering (Revised Syllabus)
Microwave and Optical Communication
L
4
T
P
2
Total
6
TA
25
Evaluation Scheme
Sessional Exam
CT
ESE PR
Total
20
80
25
150
Credit
5
Objective: “To understand basics of microwave system and its practical uses. To study optical
principles and its applications.”
A: THEORY
Unit
Contents
Introduction to Microwave Guides: TEM, TE, TM
modes in rectangular wave guides, coupling between
wave guide and co-axial cable, Impedance matching
1
elements, tuning methods, phase shifter, comparison of
transmission line with waveguide, Introduction to smith
chart
Microwave Passive Devices :
Terminators, attenuators, Traveling detectors , Micro
wave filters,H-plane Tee, Magic Tee , E-plane Tee,
Faraday’s rotation, circulators, Directional couplers,
2
Microwave resonators, Klystron reflex klystron, TWT
magnetron, IMPATT, TRAPATT, BARITT and GUNN
diode , Gunn effects and modes, tunnel diode and it’s
applications
Microwave Measurements and Antenna:
VSWR, Power, Cavity-Q, wave meter, Noise factor
measurement
3
Horn antenna, slot antenna, parabolic reflector,
cassegrain feed, lens antenna , broad side and end fire
arrays
Microwave Integrated Circuits :
Materials, Hybrid and monolithic MICs,fabrication
4
process, Transmission lines, Micro strip lines, parallel
striplines , coplanar and shielded striplines
Basics of Fiber Optics:
Building blocks of optical fiber communication link,
optical transceiver, optical fiber types and constructions.
Propagation in optical fiber single mode and multi mode
5
systems. Step index fibers, graded index fibers.
Operating wavelength dispersion, Numerical Aperture.
Losses in optical viz. Absorption, Raleigh scattering
wave length dispersion , Radiation dispersion ,coupling
losses , Splices and connectors
Optical Sources and Detectors:
6
Light emitting diode, burrus etched Wall-surface
emitting LED , Injection laser diode, PIN diodes ,
22/56
Duration
Nature
08 Hrs
Analytical
and
Descriptive
08 Hrs
Descriptive
08Hrs
Descriptive
06 Hrs
Descriptive
08 Hrs
Analytical
and
Descriptive
08 Hrs
Descriptive
avalanche photo diode, PIN FET and Integrated
receivers and their characteristics Connectors and
couplers Active and Passive, different types , application
and characteristics
7
Optical Measurement :
Power, attenuation measurement, dispersion, refractive
index profile, numerical aperture, eye pattern bit rate
OTDR measurements
System Design Considerations and Applications:
10. System Design Consideration in noise, Noise Penalties,
system margin, performance in terms of probability of
errors considering shot noise and other sources of
8
noise.
Application of fiber in computer networks, telephone,
Sonnet, SDH Tracking, Industrial application: sensor
systems
SECTION :A Chap 1,2,3,4
SECTION :B Chap 5,6,7,8
07 Hrs
Descriptive
07 Hrs
Descriptive
B : Practical / Drawing / Design / Workshop: Practical
Minimum 10 experiments should be conducted based on the list given below.
The assessment of the term work shall be done on the following criteria:
1. Continuous assessment
2. Performing the experiment in the Laboratory
3. Oral examination (conducted internally) on the syllabus and the term work mentioned
above
The assessment of practical examination shall be on the following criteria:
The practical examination shall consist of performing an experiment based on the
practical work done during the course, the record of the experiments submitted by the candidate
and viva -voce based on the syllabus.
List of Practicals:
1. Active device characteristics measurement
2. Horn antenna :Gain and Radiation pattern Measurement
3. Measurement on C-band antenna
4. Study of MIC technique
5. Impedance measurement using Microwave Bench of different microwave component
6. VSWR measurement.
7. Electrical characteristics of LED and Detector
8. Numerical Aperture measurement for fiber
9. Attenuation Measurement of fiber
10. Eye pattern Measurement
11. Study of connectors and couplers
12. Study of Losses in optical fiber
23/56
C. Suggested Text Books and References :
Sr.
No.
1
2
Tiltle
Optical fiber
Communication
Author
Gerd Keiser
Optical Fiber Communication
John M. Senior
Principles and Practice
Publication
TMH
Third
Pearson Education /
Prentice Hall
( LPE )
Second
3
Fiber Optical Communication
J.D. Agrawal
AH Wheeler
4
Optical Communication System
John Grower
5
Microwave Devices and
Circuits
Samuel Y. Liao
PHI
Pearson Education /
Prentice Hall
( LPE )
Willy Student
Edition
CBS
6
7
Foundation for Microwave
Engineering
Microwave Principles
Robert Collin
J.H. Reach
24/56
Edition
Second
Third
Second
Pattern of Question Paper
Faculty of Engineering and Technology
Third year (BTech) Electronics & Telecommunication Engg (Revised Course) Examination
November / December, May/June 200_
Microwave and Optical Communication
Time: 3 Hrs
Max Marks: 80
‘Please check whether you have got the right question paper’
N.B:xxv.All the questions are compulsory.
xxvi.Use separate answer book for each section.
xxvii.……………………………………………
xxviii.……………………………………………
Section A
Question No. 1
16 Marks
This Question will consist of questions from the entire chapter under section A mentioned in the
syllabus.
Question No.2 OR Question No.2
Question No.3 OR Question No.3
12 Marks
12 Marks
Note:
1. The topic may be intermingled in the questions.
2. The questions will be memory based, application based and understanding type.
Section B
Question No. 4
16 Marks
This Question will consist of questions from the entire chapter under section B mentioned in the
syllabus.
Question No.5 OR Question No.5
12 Marks
Question No.6 OR Question No.6
12 Marks
Note:
3. The topic may be intermingled in the questions.
4. The questions will be memory based, application based and understanding type.
25/56
T. Y. B. Tech. Electronics & Telecommunication Engineering (Revised Syllabus)
Microcontroller and Embedded System
L
4
T
----
P
2
Total
6
TA
25
Evaluation Scheme
Sessional Exam
CT
ESE PR
Total
20
80
25
150
Credit
5
Objective: “An Embedded system is one of the most emerging areas from digital systems. This
subject basically aims to acquire knowledge of Design and evaluating the opportunities of
applications of embedded systems in the various areas including consumer electronics.”
A: THEORY
Unit
Contents
Introduction to Embedded System: Embedded System
overview, design challenges – Optimizing design matrix,
1
types of microcontrollers, examples of popular
microcontroller, selection of microcontroller, watchdog
timer.
Microcontroller 89C51: Architecture, Pin description,
Addressing Modes, Instruction SET, Timer &
2
counters,ports,serial communication, Programming &
flash programming
Real World Interfacing : Interfacing of RAM,
3
ROM,LED, ADC, DAC, LCD, Keyboard, 8255, stepper
motor
Communication
Interfaces:
RS232,422,485,
4
ETHERNET, CAN,I2C,USB, ,IEEE802.11, Introduction
to Bluetooth
Microcontroller Application Development Tools:
Microprocessor Development System, Development
phases of a microcontroller- based system, software
5
development
cycle
and
applications,
software
development tools, Emulator and In circuit Emulator,
Target Board, Device Programmer
Design Application : Cellular Phone, Digital Camera, IC
6
Tester, Embedded in Automobile, CAN operated system
Introduction to ARM 32- Bit Processor : ARM
7
architecture and organization, programming model,
Instruction set, development tools
SECTION :A Chap 1,2,3
SECTION :B Chap 4,5,6,7
Duration
Nature
03 Hrs.
Descriptive
and
Logical
17 Hrs.
Descriptive
and
Logical
10Hrs.
08 Hrs.
Descriptive
and
Logical
Descriptive
and
Logical
05 Hrs.
Descriptive
10 Hrs.
Descriptive
07 Hrs.
Descriptive
and
Logical
B : Practical / Drawing / Design / Workshop: Practical
Minimum 10 experiments should be conducted based on the list given below.
The assessment of the term work shall be done on the following criteria:
1. Continuous assessment
2. Performing the experiment in the Laboratory
3. Oral examination (conducted internally) on the syllabus and the term work mentioned
26/56
above
The assessment of practical examination shall be on the following criteria:
The practical examination shall consist of performing an experiment based on the
practical work done during the course, the record of the experiments submitted by the candidate
and viva -voce based on the syllabus.
List of Practicals:
1 Study of 8051 Microcontroller Kit used in laboratory
2 Study of flash programming in Atmel 89C51
3 Write a program for Addition, Subtraction, Multiplication and division of 8 bit numbers
4 Write a program for finding average of 5 numbers
5 Interface LED and Write a program for flashing of LED
6 Write a program to generate the Ramp Waveform using DAC with microcontroller
7 Write a program to interface the ADC
8 Write a program to control a stepper motor in direction, speed and number of steps
9 Write a program to interface LCD display
10 Write a program to interface Keyboard
11 To Study Microprocessor development System
12 To Study Architecture of ARM
13 To study the case study of Cellular Phone/Digital Camera
C. Suggested Text Books and References :
Sr. No.
1
Tiltle
8051 Microcontroller
Architecture, Programming
and Application
Author
K.J. Ayala
M.A. Mazidi &
J.G. Mazidi &
R.D. McKinley
Frank Vahid &
Tony Givargus
2
The 8051Microcontroller And
Embedded Systems
3
Embedded System Design
4
Embedded Systems
Architecture, Programming
and Design
Raj Kamal
Microcontroller
Raj Kamal
5
6
7
Embedded Real Time
Systems: Concepts, Design
and Programming (Black
Book)
Microcontrollers: Theory and
Applications
Publication
International
Thompson
Publishing
Raj Kamal
27/56
2nd Edition
Willey Publication
TMH
Raj Kamal
Dr. K. V. K. K.
Dreamtech Press
Prasad
Ajay
Deshmukh
Edition
TMH Publication
2nd Edition
2nd Indian
Print
Pattern of Question Paper
Faculty of Engineering and Technology
Third year (BTech) Electronics & Telecommunication Engg (Revised Course) Examination
November / December, May/June 200_
Microcontroller and Embedded System
Time: 3 Hrs
Max Marks: 80
‘Please check whether you have got the right question paper’
N.B:xxix.All the questions are compulsory.
xxx.Use separate answer book for each section.
xxxi.……………………………………………
xxxii.……………………………………………
Section A
Question No. 1
16 Marks
This Question will consist of questions from the entire chapter under section A mentioned in the
syllabus.
Question No.2 OR Question No.2
Question No.3 OR Question No.3
12 Marks
12 Marks
Note:
1. The topic may be intermingled in the questions.
2. The questions will be memory based, application based and understanding type.
Section B
Question No. 4
16 Marks
This Question will consist of questions from the entire chapter under section B mentioned in the
syllabus.
Question No.5 OR Question No.5
Question No.6 OR Question No.6
12 Marks
12 Marks
Note:
3. The topic may be intermingled in the questions.
4. The questions will be memory based, application based and understanding type.
28/56
T. Y. B. Tech. Electronics & Telecommunication Engineering (Revised Syllabus)
Digital Signal Processing
L
4
T
----
P
2
Total
6
TA
25
Evaluation Scheme
Sessional Exam
CT
ESE PR
Total
20
80
-125
Credit
5
Objective: “The field of Digital Signal Processing (DSP) has seen explosive growth during the
past four decades, as phenomenal advances both in research and application have been made.
Fueling this growth have been the advances in digital computer technology and software
development. This subject gives the fundamentals of discrete time signals, systems and modern
digital processing algorithms and applications for students. This subject also explores the
opportunities in design engineering and software engineering by motivating students to work in
the multidimensional areas of electronics and telecommunication.”
A: THEORY
Unit
Contents
Introduction to Signals and Systems :
1.1 Basic Elements of DSP Systems
1.2 Advantages of Digital Signal Processing over
Analog Signal Processing
1.3 Classification of Signals : Multidimensional Versus
Multichannel Signals, Continuous Time Versus
Discrete Time Signals, Continuous Valued Versus
Discrete Valued Signals, Deterministic Versus
Random Signals
1.4 Concept of Frequency in Continuous Time and
1
Discrete Time Signals: Continuous Time
Sinusoidal Signals, Discrete Time Sinusoidal
Signals
1.5 Analog to Digital and Digital to Analog
Conversion : Sampling of Analog Signals
,Sampling Theorem , Quantization of Continuous
Amplitude Signals and Sinusoidal Signals
1.6 Discrete Time Signals : Elementary Discrete Time
Signals ,Classification of Discrete Time Signals,
Manipulation of Discrete Time Signals
Discrete Time Signals and Systems :
2.1 Discrete Time Systems : Input Output Description
of a System, Block Diagram Representation of a
Discrete Time Systems
2.2 Classification of Systems : Linear And Nonlinear
2
Systems, Causal And Noncausal Systems, Stable
and Unstable Systems, Time Variant and Time
Invariant Systems
2.3 Analysis of Discrete Time Linear Time Invariant
Systems: Techniques For the Analysis of Linear
Systems, Resolution of Discrete Time Signals into
29/56
Duration
Nature
10 Hrs
Descriptive
and
Analytical
08 Hrs
Descriptive
and
Analytical
3
4
5
Impulses, the Convolution Sum, Properties of
Convolution, Stability of Linear Time Invariant
Systems
2.4 Discrete Time Signals Described by Differential
Equations
2.5 Implementation of Discrete Time Systems
2.6 Correlation of Discrete Time Signals: Cross
Correlation and Autocorrelation Sequences
The Z Transform and its Applications to the
Analysis of LTI Systems :
3.1 The Z Transform
3.2 Properties of Z Transform
3.3 Problems Based on Properties of Z Transform
3.4 Rational Z Transforms
3.5 Inversion of The Z Transform: The Inverse Z
Transform by Power Series Method, The Inverse Z
Transform by Partial Fraction Expansion
3.6 The One Sided Z Transform: Properties of one
Sided Z Transform
3.7 Analysis of Linear Time Invariant Systems in The Z
Domain
Fourier Analysis of Signals :
4.1 Frequency Analysis of Continuous Time Signals :
The Fourier Series for Continuous Time Periodic
Signals, Power Density Spectrum of Periodic
Signals, The Fourier Transform for Continuous
Time Aperiodic Signals, Energy Density Spectrum
of Aperiodic Signals
4.2 The Fourier Transform for Discrete Time Aperiodic
Signals
4.3 Properties of the Fourier Transform for Discrete
Time Signals
4.4 Fourier Transform Theorems and Properties
The Discrete Fourier Transform, its Properties and
Applications :
5.1 Frequency Domain Sampling and Reconstruction of
Discrete Time Signals
5.2 The Discrete Fourier Transform ( DFT ) : The DFT
as a Linear Transformation, Relationship of DFT to
The Z Transform
5.3 Properties of The DFT : Multiplication of Two
DFTs and Circular Convolution
5.4 Problems Based on DFT Properties
5.5 Linear Filtering Methods Based on DFT
5.7 Filtering of Long Data Sequences : Overlap Add
Method , Overlap Save Method
5.8 Fast Fourier Transform (FFT) Algorithms : Divide
And Conquer Approach ,Radix 2 FFT Algorithms,
Decimation in Time FFT, Decimation in Frequency
FFT
30/56
08 Hrs
Descriptive
and
Analytical
04 Hrs
Descriptive
and
Analytical
10 Hrs
Descriptive
and
Analytical
Digital Filters :
6.1 Types of Digital Filters
6.2 Characteristics of Practical Frequency Selective
Filters
6.3 Finite Impulse Response ( FIR ) Filters and Its
Properties : Symmetric And Anti symmetric FIR
Filters
6.4 Stability of Optimal FIR Filters
6.5 Design Methods of FIR Filters : Design of Linear
Phase FIR Filters Using Windows , Design of
6
Linear Phase FIR Filters Using Frequency
Sampling Method
6.6 Infinite Impulse Response ( IIR ) Filters and Its
Properties
6.7 Design of IIR Filters From Analog Filters : IIR
Filter Design By Approximation of Derivatives,
IIR Filter Design by Impulse Invariance Method,
IIR Filter Design by Bilinear Transformation
Method, The Matched Z- Transformation,
Frequency Transformations in analog Domain,
Frequency Transformations in Digital Domain
Introduction To DSP Processors:
7.1 Introduction
to Programmable Digital Signal
Processors ( PDSPs )
7.2 Multiplication and Accumulation
7
7.3 Modified Bus Structures and Memory
7.4 Access Schemes in PDSPs
7.5 An Overview of TMS320C54X
7.6 Architecture of 54X
SECTION :A Chapters 1,2,3,4
SECTION :B Chapters 5,6,7
14 Hrs
Descriptive
and
Analytical
06 Hrs
Descriptive
B : Practical / Drawing / Design / Workshop: Practical
Minimum 10 experiments should be conducted based on the list given below.
The assessment of the term work shall be done on the following criteria:
1. Continuous assessment
2. Performing the experiment in the Laboratory
3. Oral examination (conducted internally) on the syllabus and the term work mentioned
above
List of Practicals:
1. Study of Different Commands used in MATLAB used for Digital Signal Processing.
2. Program to Calculate Convolution of Two Sequences by using Basic MATLAB
Operators and by using ‘conv’ Command.
3. Program to Calculate Cross correlation and Autocorrelation by using Basic MATLAB
Operators and by using ‘ xcorr ‘ Command.
4. Program to Calculate ‘ N ‘ Point DFT of a Sequence.
5. Program to Plot Magnitude and Phase Response of Second Order System.
6. Program to Find Out Poles and Zeros of a Transfer Function.
7. Program to Plot Magnitude and Phase Response of a Filter.
31/56
8.
9.
10.
11.
12.
Program to Design Butterworth IIR Low Pass Filter.
Program to Design Chebyshev-1 IIR Low Pass Filter for Given Specifications.
Program to Design FIR Filter using Windows .( Any 4 Windows )
Any one Application on Simulink.
Program for GUI
C: Suggested Text Books and References:
Sr. No.
Title
Author
1
Digital Signal Processing :
Principles , Algorithms and
Applications
John G. Proakis ,
Dimitris G.
Monolokis
2
Digital Signal Processing
3
4
Digital Signal Processing : A
Computer Based Approach
Theory and Applications of
Digital Signal Processing
5
Digital Signal Processing
6
7
Digital Signal Processing
Digital Signal Processing
Digital Signal Processing
using MATLAB
Computer Algorithms in
Signal Processing ( With
Algorithms Implemented in C
and MATLAB
www.DSPRelated.com
8
9
10
Publication
Pearson and
Prentice Hall (
Low Price
Edition )
Edition
Third
Salivahanan,
Vallavraj,
Gnanapriya
Tata McGraw
Hill
Sanjit Mitra
Tata McGraw
Hill
Rabiner, Gold
Prentice Hall
Barapatte and Katre
Tech- Max
N.G. Palan
P. Rameshbabu
Ingle and John
Proakis
Technova
Scitech
Forth
Thomson
Asia
J.S. Chitode
Technical
32/56
Third
Colour
Edition
Pattern of Question Paper
Faculty of Engineering and Technology
Third Year (B. Tech.) Electronics & Telecommunication Engg (Revised Course)
Examination
November / December, May/June 200_
Digital Signal Processing
Time: 3 Hrs
Max Marks: 80
‘Please check whether you have got the right question paper’
N.B:xxxiii.All the questions are compulsory.
xxxiv.Use separate answer book for each section.
xxxv.……………………………………………
xxxvi.……………………………………………
Section A
Question No. 1
16 Marks
This Question will consist of questions from the entire chapter under section A mentioned in the
syllabus.
Question No.2 OR Question No.2
Question No.3 OR Question No.3
12 Marks
12 Marks
Note:
1. The topic may be intermingled in the questions.
2. The questions will be memory based, application based and understanding type.
Section B
Question No. 4
16 Marks
This Question will consist of questions from the entire chapter under section B mentioned in the
syllabus.
Question No.5 OR Question No.5
Question No.6 OR Question No.6
12 Marks
12 Marks
Note:
3. The topic may be intermingled in the questions.
4. The questions will be memory based, application based and understanding type.
33/56
T. Y. B. Tech. Electronics & Telecommunication Engineering (Revised Syllabus)
(Elective- I)
Wireless and Mobile Communication
L
4
T
----
P
2
Total
6
TA
25
Evaluation Scheme
Sessional Exam
CT
ESE PR
Total
20
80
25
150
Credit
5
Objective: “To update the knowledge of wireless communication that has brought remarkable
transformation in the field of telecommunication, fundamentals of system design concepts,
wireless technology such as voice, data, cordless, paging, fixed and mobile broadband wireless
system and many more.”
A: THEORY
Unit
Contents
Multiple Access Schemes: SDMA, FDMA, TDMA,
CDMA, comparison
based on terminal signal
1
separation and advantages, disadvantages, packet radio,
IEEE 802.11 and IEEE 802.16 wireless standards,
system architecture
Cellular Concept: Channel assignment strategies,
handoff strategies, interference and system capacity,
trunking and grade of service, improving coverage &
capacity in cellular system, propagation path loss and
propagation models, co- channel and non co -channel
2
interference, exploring co- channel interference areas in
system, reduction of co channel interference, different
types of non co channel interference, different ways to
reduce interference and improve cell coverage, fading:
types, slow & fast fading
Modulation Techniques for Mobile Radio: Frequency
Vs Amplitude modulation, tradeoff between SNR and
bandwidth in FM signal, digital modulation, line coding,
pulse shaping technique, linear modulation technique
constant envelope modulation, combined linear &
3
constant envelope , spread spectrum modulation
technique, pseudo noise (PN) sequence, direct sequence
spread spectrum(DSSS), Frequency hopped spread
spectrum(FH-SS), performance of DSSS and FH-SS,
equalization, diversity and channel coding
Wireless Networking: difference between wireless and
fixed networking, development of wireless network,
fixed network hierarchy, traffic routing in wireless
networking, wireless data services, common channel
4
signaling, ISDN integrated services and digital network,
Signaling system No. 7 (SS7), personal communication
services/ networks protocols for network access,
universal mobile telecommunication systems(UMTS)
34/56
Duration
Nature
08 Hrs
Theoretical
and
Analytical
10 Hrs
Theoretical
and
Analytical
10 Hrs
Theoretical
and
Analytical
10 Hrs
Theoretical
and
Analytical
Wireless System and Standards: 1G, 2G, 2.5G and
3G standards, standards for wireless communication
system, GSM architecture and air interface, GSM
subsystem, GSM channel types, frame structure, signal
5
processing in GSM, mapping of GSM layers on to OSI
layers, CDMA: Major attributes of IS 95 standards,
architecture, air interface, physical and logical channel,
forward and reverse CDMA channel, call processing
Universal Mobile Telecommunication System: Digital
European Cordless Telephone (DECT), GPRS general
packet radio service, GPS global positioning system,
6
WLAN wireless local area network, PACS personal
access communication system, PDC pacific digital
cellular and PHS personal handy phone system
SECTION :A Chapter 1,3,5
SECTION :B Chapter 2,4,6
12 Hrs
Theoretical
and
Analytical
10 Hrs
Theoretical
and
Analytical
B : Practical / Drawing / Design / Workshop: Practical
Minimum 10 experiments should be conducted based on the list given below.
The assessment of the term work shall be done on the following criteria:
1. Continuous assessment
2. Performing the experiment in the Laboratory
3. Oral examination (conducted internally) on the syllabus and the term work mentioned
above
The assessment of practical examination shall be on the following criteria:
The practical examination shall consist of performing an experiment based on the
practical work done during the course, the record of the experiments submitted by the candidate
and viva -voce based on the syllabus.
List of Practicals:
1. To understand the basic circuit of mobile phone(transmitter, receiver & base band
control section)
2. To study working of a SIM card in GSM handset, SIM card detection
3. To study and analyze the Vibrator in GSM handset, at alarm time on, charging
4. Phenomenon in GSM handset
5. To study the row /column configuration of Matrix keypad
6. Measure and plot GMSK signal such as transmitter and receiver signal
7. To study and analyze the LCD module used in display section of mobile handset
8. To study AT commands using GSM trainer module
9. To study CDMA transmitter and receiver
10. To study global positioning system
C. Suggested Text Books and References :
Sr. No.
Title
Author
Mobile Cellular
William C.Y.
1
Telecommunication
Lee
2
Mobile Communication
Jochen Schiller
Wireless Communication:
Theodore S.
3
Principles and Practice
Rappaport
Principles and Application of V.K Garg, J.E
4
GSM
Wilkes
35/56
Publication
Edition
McGraw –Hill
2nd Edition
Pearson Education
Prentice Hall of
India
2nd Edition
Pearson Education
Pattern of Question Paper
Faculty of Engineering and Technology
Third year (BTech) Electronics & Telecommunication Engg (Revised Course) Examination
November / December, May/June 200_
E-I: Wireless and Mobile Communication
Time: 3 Hrs
Max Marks: 80
‘Please check whether you have got the right question paper’
N.B:xxxvii.All the questions are compulsory.
xxxviii.Use separate answer book for each section.
xxxix.……………………………………………
xl. ……………………………………………
Section A
Question No. 1
16 Marks
This Question will consist of questions from the entire chapter under section A mentioned in the
syllabus.
Question No.2 OR Question No.2
Question No.3 OR Question No.3
12 Marks
12 Marks
Note:
1. The topic may be intermingled in the questions.
2. The questions will be memory based, application based and understanding type.
Section B
Question No. 4
16 Marks
This Question will consist of questions from the entire chapter under section B mentioned in the
syllabus.
Question No.5 OR Question No.5
Question No.6 OR Question No.6
12 Marks
12 Marks
Note:
3. The topic may be intermingled in the questions.
4. The questions will be memory based, application based and understanding type.
36/56
T. Y. B. Tech. Electronics & Telecommunication Engineering (Revised Syllabus)
(Elective-I)
Industrial Instrumentation and Computer Control
L
4
T
P
2
Total
6
TA
25
Evaluation Scheme
Sessional Exam
CT
ESE PR
Total
20
80
25
150
Credit
5
Objective: “The contents aim to develop the knowledge of the student in the direction of solving
the practical problem in the engineering and technology.”
A: THEORY
Unit
Contents
Review of Control System Principle:
Types of control system: Electrical, mechanical, pneumatic
hydraulic system and various components used, mathematical
01
model of physical system, open loop and closed loop control,
characteristic equation and concept of stability, time domain
and frequency domain specification of second order systems
Process Control:
Characteristic of real processes, pilot devices in process
control such as relays limit switches, annunciator, control
valves, actuators, process control techniques proportional,
02
ON/OFF, derivative, Integral control, feedback, feedback
control, ratio control, cascade control, selective adaptive and
nonlinear control, optimizing control,tunning of controller,
tuning by computers
Computer Controls:
Online control, off line control, supervisory, direct digital,
03
cascade, and ratio feed forward algorithms for P, PI, PD, and
PID. Computer interfacing techniques software techniques
distributed system and their types, data logging, PLCs
Sensors:
Review of sensors for flow measurement, temperature
measurement, pressure measurement velocity measurement,
speed and torque measurement, disturbances and vibration
04
measurements, wear and tear measurements, humidity
measurements. Interfacing to computer using ADCs &
DACs, drive circuits and signal conditioning of these sensors,
transmission equipments, characteristics of sensors and their
specifications and availability
Controllers, Transmitters and Telemetry:
Relays, electronics controllers and transmitters, pneumatic
05
controllers, and transmitters, telemetry system, annunciator,
CRT displays, recorders
Control of Unit Operation:
06
Boiler control and optimization, compressor controls,
crystallizer control, distillation control, dryer control,
37/56
Duration
Nature
06 Hrs
Descriptive
08 Hrs
Descriptive
08 Hrs
Descriptive
08 Hrs
Descriptive
04 Hrs
Descriptive
06 Hrs
Descriptive
07
08
09
evaporator control, furnace control, PH control, pump
control, steam turbine control
Simulation and Process Control:
Study of plant, sub plant and instrumentation process used in
thermal power station, nuclear power stations, sugar
industries, cement industry and paper industry,
pharmaceutical industries
Computer Based Numerical Control System:
NC, CNC and DNC machines, advantages & disadvantages
of each machines
Intelligent Controllers:
Introduction of intelligent controller, model based controller ,
predictive control, artificial intelligent based system , expert
controller, fuzzy logic system , fuzzy controller, fuzzy logic
tools, artificial neural networks, neural controllers, VLSI
implementation of neural networks , neuro-fuzzy control
system
06 Hrs
Descriptive
06 Hrs
Descriptive
08 Hrs
Descriptive
SECTION: A Chap 1,2,3,4
SECTION: B Chap 5,6,7,8,9
B: Practical/Drawing/Design/Workshop: Practical
Minimum 10 experiments should be conducted based on the list given below.
The assessment of the term work shall be done on the following criteria:
1. Continuous assessment.
2. Performing the experiment in the Laboratory
3. Oral examination (conducted internally) on the syllabus and the term work mentioned
above
The assessment of practical examination shall be on the following criteria:
The practical examination shall consist of performing an experiment based on the
practical work done during the course, the record of the experiments submitted by the candidate
and viva -voce based on the syllabus.
List of Practicals:
Study of various control system elements (3-experiments)
1.
2.
Study of various process control elements (3-experiments)
3.
Study of ON-OFF controls
4.
Study of P, I, D, and PID controls.
5.
Study of various sensor (3-experiments)
6.
Study of controller transmitters and telemetry
7.
Study of controls of unit operation (2-experiments)
8.
Study of simulation of various process plants and their control elements (3- experiments)
9. Study of fuzzy logic system, controllers.
10. Study of neural controller, neuro fuzzy control system.
38/56
C: Suggested Text Books And References:
Sr.
No.
01
02
03
04
05
Title
Author
Microprocessor and Their Manufacturing
Application
Process Instrumentation in Industries
Control Systems Engineering
Instrumentation Devices
Computer Based Industrial Control
A.K. Kochhar
& N.D. Burn
LIPTAK B.G.
Nagrath, Gopal
Rangan, Mani, Sharma
Krishna Kant
39/56
Publication
Pattern of Question Paper
Faculty of Engineering and Technology
Third year (BTech) Electronics & Telecommunication Engg (Revised Course) Examination
November / December, May/June 200_
Time: 3 Hrs
E-I: Industrial Instrumentation and Computer Control
Max Marks: 80
‘Please check whether you have got the right question paper’
N.B:xli. All the questions are compulsory.
xlii. Use separate answer book for each section.
xliii.……………………………………………
xliv.……………………………………………
Section A
Question No. 1
16 Marks
This Question will consist of questions from the entire chapter under section A mentioned in the
syllabus.
Question No.2 OR Question No.2
Question No.3 OR Question No.3
12 Marks
12 Marks
Note:
1. The topic may be intermingled in the questions.
2. The questions will be memory based, application based and understanding type.
Section B
Question No. 4
16 Marks
This Question will consist of questions from the entire chapter under section B mentioned in the
syllabus.
Question No.5 OR Question No.5
Question No.6 OR Question No.6
12 Marks
12 Marks
Note:
3. The topic may be intermingled in the questions.
4. The questions will be memory based, application based and understanding type.
40/56
T. Y. B. Tech. Electronics & Telecommunication Engineering (Revised Syllabus)
(Elective- II)
Radar and Satellite Communication
L
4
T
-----
P
2
Total
6
TA
25
Evaluation Scheme
Sessional Exam
CT
ESE PR
Total
20
80
--125
Credit
5
Objective: “A Radar system is one of the classical applications of microwaves and most of the
aviation and navigation systems are radar dependant. The telecommunication technology is
moving towards fourth generation and satellite plays role of immense importance in 4G systems.
This subject provides an overview of Radar Systems and Satellite applications and forms a sound
base to cope with new generation telecommunication systems.”
A: THEORY
Unit
01
02
03
04
05
06
07
08
09
Contents
Duration Nature
Introduction to Radar System: Basic principle, block
diagram and operation of radar, range equation PRF’s and
06 Hrs
Descriptive
range ambiguities, application of radar
Doppler Radar: Doppler determination of velocity, CW radar
and its limitations, FMCW radar, MTI radar, delay line can
08 Hrs Descriptive
cellars, blind speed and staggered
Scanning & Tracking Techniques: Various scanning
methods such as horizontal, vertical, spiral, palmer, raster and
Logical
nodding, angle racking systems such as load, switching,
08 Hrs
and
conical scan, monopulse range tracking system, Doppler
Analytical
velocity tracking systems
Introduction to Satellite Communication: Brief history,
current state, orbital aspects, procedure of locating the satellite
08 Hrs
Descriptive
in orbited, low earth orbit communication slant range &
coverage area evaluation
Satellite Sub System: Structure of a satellite, specification,
transponder structure, solar panel design for power
management, launch process, pre launch and post launch
06 Hrs
Descriptive
operations satellite control centre, emerging trends in mission
control
Satellite Launch Vehicles: Principle, construction &
working, satellite telemetry, tracing & command sun systems,
06 Hrs
Descriptive
geometry of satellite stabilization three axis and spin methods
of stabilization
Earth Station: Design aspects, transmit chain, device chain
07 Hrs
Analytical
LNA, HPA, antenna systems losses in satellite communication
Satellite Access: FDMA, TDMA and CDMA techniques for
multiple access construction, working and design aspects
07 Hrs
Analytical
related to satellite link
Satellite Applications: VSAT system remote scanning
04 Hrs
Logical
weather forecasting, satellite phones, GPRS system
41/56
SECTION : A Chap 1,2,3,4,
SECTION : B Chap 5,6,7,8,9
B: Practical/ Drawing/Design/Workshop: Practical
Minimum 10 experiments should be conducted based on the list given below.
The assessment of the term work shall be done on the following criteria:
1. Continuous assessment
2. Performing the experiment in the Laboratory
3. Oral examination (conducted internally) on the syllabus and the term work mentioned
above
List of Practicals:
1.Design and Performance analysis of Doppler Radar system
2.Design and Performance analysis of Radar Scanning and Tracking systems
3.Satellite Communication Link design
4.Measurement of Base Band analog signal parameters in satellite link
5 Measurement of signal parameters in analog FM/FDM TV Satellite link.
6 Measurement of C/N Ratio.
7 Measurement of S/N Ratio
8 Performance evaluation of Satellite MODEM
9 Measurement of Digital Base Band signal parameters in satellite communication link
10 To send the telecommand and to receive the telemetry data using CODEC
11 Structure of various INSAT & ISRO satellite systems
12 Studies of CDMA Encoder and Decoder
13 Study of specifications of telemetry, tracking and command systems
14 Studies of Satellite Launch Vehicles
15 Study of satellite Earth station antenna system
C: Suggested Text Books And References:
Sr.No.
01
02
03
04
05
06
07
08
Title
Microwave Devices & Radar Engineering
Introduction to Radar Systems
Foundation of Microwave Engineering
Microwave Engineering
Fundamentals of Satellite Communication
Satellite Communication Technology
Digital Satellite Communication
Satellite Communication
42/56
Author
M.K. Kulkarni
Merrill I.
Skolink
P.E. Collin
K.C. Gupta
K.N. Raja Rao
Dr. K. Miya
Ha
T. Pratt &
Boston
Publication
PHI
Pearson
TMH
Pattern of Question Paper
Faculty of Engineering and Technology
Third year (B.Tech) Electronics & Telecommunication Engg (Revised Course) Examination
November / December, May/June 200_
E-II: Radar and Satellite Communication
Time: 3 Hrs
Max Marks: 80
‘Please check whether you have got the right question paper’
N.B:xlv. All the questions are compulsory.
xlvi.Use separate answer book for each section.
xlvii.……………………………………………
xlviii.……………………………………………
Section A
Question No. 1
16 Marks
This Question will consist of questions from the entire chapter under section A mentioned in the
syllabus.
Question No.2 OR Question No.2
Question No.3 OR Question No.3
12 Marks
12 Marks
Note:
1. The topic may be intermingled in the questions.
2. The questions will be memory based, application based and understanding type.
Section B
Question No. 4
16 Marks
This Question will consist of questions from the entire chapter under section B mentioned in the
syllabus.
Question No.5 OR Question No.5
12 Marks
Question No.6 OR Question No.6
12 Marks
Note:
3. The topic may be intermingled in the questions.
4. The questions will be memory based, application based and understanding type.
43/56
T. Y. B. Tech. Electronics & Telecommunication Engineering (Revised Syllabus)
(Elective- II)
Advanced Power Electronics and Drives
L
4
T
---
P
2
Total
6
TA
25
Evaluation Scheme
Sessional Exam
CT
ESE PR
Total
20
80
--125
Credit
5
Objective: “The contents aim to develop the knowledge of the student in the direction of solving
the practical problems in the engineering and technology.”
A: THEORY
Unit
01
02
03
04
05
06
07
08
Contents
Duration
Power Electronics and Digital Processor: Controlled
triggering schemes soft and hardware aspects for
converts, inverters, choppers, cycloconverters. Concept
12 Hrs
of reliable commutation in above method. Design
parameters, performance analysis and PSPICE
simulation of above circuits
Types of AC Motors and Their Characteristics:
Principle, construction, working of induction motor,
rating and specifications, multiquadrant operation,
08 Hrs
speed torque characteristics analysis for formation of
logic of speed control
Single Phase and Three Phase AC Drives: Drive
Dynamics, Induction Motor Drive system, Vector
10 Hrs
control approach, Brushless AC motor Drives, software
aspects and end application case studies
Types of DC Motors and Their Characteristics: self
excited and separately excited DC Motors, principle,
construction & working performance parameters and
08 Hrs
curves, speed torque characteristics and formation of
logic for speed control
DC Drives: basic construction, software and hardware
aspects, closed loop speed control, current control, PLL
06 Hrs
control and microcomputer control of DC drive systems
Chopper Drives: Principle of power conversion,
regenerative break control, Rheostat Break control, all
06 Hrs
Quadrant chopper drives performance evaluation and
design aspects
Aspects of Drive Design: Evaluation of Drive transfer
function study of application system for which drive is
required, design phase, selection criterion for motor and
05 Hrs
power electronic circuitry & concept of soft start in a
drive system
Applications of Drives: Electrical traction, Battery
05 Hrs
operated vehicles, Solar Powered Drives
44/56
Nature
Descriptive
and
Logical
Logical
and
Numerical
Logical
and
Numerical
Logical
and
Numerical
Descriptive
Numerical
Logical
Logical
SECTION : A Chap 1,2,3
SECTION : B Chap 4,5,6,7,8
B: Practical/Drawing/Design/Workshop : Practical
Minimum 10 experiments should be conducted based on the list given below.
The assessment of the term work shall be done on the following criteria:
1. Continuous assessment
2. Performing the experiment in the Laboratory
3. Oral examination (conducted internally) on the syllabus and the term work mentioned
above
The assessment of practical examination shall be on the following criteria:
The practical examination shall consist of performing an experiment based on the
practical work done during the course, the record of the experiments submitted by the candidate
and viva -voce based on the syllabus.
List of Practicals:
1. Digital Processor Based Triggering Schemes For Converters & Inverters.
(2 Experiments)
2. Digital Processor Based Triggering Schemes For Choppers & Cycloconverters.
(2 Experiments)
3. Dc Shunt Motor Drives
4. Chopper Drives (2 Experiments)
5. Universal Motor Drivers
6. Electrical Breaking Characteristics Of Dc Shunt Motors
7. PLL Control Of Dc Drives
8. Induction Motor Speed Torque Characteristics
9. Battery Operated Vehicle
C. Suggested Text Books And References :
Sr.No.
01
02
03
04
05
06
07
Title
Author
M. Rashid
P.C. Sen
G.K. Dubey
J.P. Agrawal
N.B. Pasalkar , Jalnekar
Dubey & Doradala
G.E.
Power Electronics
Modern Power Electronics
Electrical Drives
Power Electronics Systems
Advanced Power Electronics
Thyristoried Power Controllers
SCR Manual
45/56
Publication
PHI
Tech Max
GE Manuals
Pattern of Question Paper
Faculty of Engineering and Technology
Third year (BTech) Electronics & Telecommunication Engg (Revised Course) Examination
November / December, May/June 200_
E-II: Advanced Power Electronics and Drives
Time: 3 Hrs
Max Marks: 80
‘Please check whether you have got the right question paper’
N.B:xlix.All the questions are compulsory.
l. Use separate answer book for each section.
li. ……………………………………………
lii. ……………………………………………
Section A
Question No. 1
16 Marks
This Question will consist of questions from the entire chapter under section A mentioned in the
syllabus.
Question No.2 OR Question No.2
Question No.3 OR Question No.3
12 Marks
12 Marks
Note:
1. The topic may be intermingled in the questions.
2. The questions will be memory based, application based and understanding type.
Section B
Question No. 4
16 Marks
This Question will consist of questions from the entire chapter under section B mentioned in the
syllabus.
Question No.5 OR Question No.5
Question No.6 OR Question No.6
12 Marks
12 Marks
Note:
3. The topic may be intermingled in the questions.
4. The questions will be memory based, application based and understanding type
46/56
Microelectronics
L
2
T
----
P
---
Total
2
Evaluation Scheme
Sessional Exam
CT
ESE PR
Total
10
40
---50
TA
---
Credit
2
Objective: “Every microstructure is very powerful. This subject basically explores the aspects of
electronics at semiconductor physics level and provides information about big happenings in very
small structures.”
A: THEORY
Unit
Contents
Review of MOS Technology : Basic MOS Transistor,
Enhancement and Depletion Mode Transistors, MOS
1
and C-MOS Processor, Thermal Aspects of Processing,
Production of Masks
Electrical Properties of MOS Circuits : Parameters of
MOS Transistors, Pass Transistors, N-MOS inverter,
2
Pull-Up to Pull Down Ratio for an N-MOS Inverter, CMOS Inverters, MOS Transistor Circuit Model, Latch
Up On C-MOS Circuits
Design Processes: MOS Layers, Stick Diagram,
3
Design Rules, AWA OX C-MOS Process Description,
Double Metal Single Polysilicon C-MOS Process
Basic Circuit Concepts : Sheets Resistance, Area
4
Capacitance Delay Unit, Inverter Delay, Super Buffers,
Propagation Delays
Subsystem Design and Layout: Architectural Issues,
Switch Logic, Gate Logic, Examples of Combinational
5
Logic, Clocked Sequential Circuits, Other System
Consideration
Scaling of MOS Circuits: Scaling Factor, Limitations,
6
Scaling of wires And Interconnections
SECTION :A Chapters 1,2,3
SECTION :B Chapters 4,5,6
Duration
Nature
02 Hrs
Descriptive
05 Hrs
Descriptive
08 Hrs.
Descriptive
and
Analytical
05 Hrs
Descriptive
05 Hrs
Descriptive
05 Hrs
Descriptive
B : Practical / Drawing / Design / Workshop: ------------C. Suggested Text Books and References:
Sr. No.
Tiltle
1
Basic VLSI Design
2
VLSI Design Techniques for
Analog and Digital Circuit
Author
Douglas A. Pucknell
and Kamran
Eshraghian
Geigar B.R., Allen P.E.
and Strader M.E.
47/56
Publication
Prentice –
Hall India
Tata
McGraw
Hill
Edition
Third
3
Essentials of VLSI Circuits
and Systems
4
CMOS VLSI Design
A Circuits and Systems
Perspective
Eshraghian , Douglas
A. Pucknell and
Eshraghian
Neil H. E. Waste,
David Harris, Ayan
Banerjee
Modern VLSI Design
Wolf
5
48/56
Prentice –
Hall India
Pearson
Education
Pearson
Education
Third
Pattern of Question Paper
Faculty of Engineering and Technology
Second year (BTech) Electronics & Telecommunication Engg (Revised Course)
Examination
November / December, May/June 200_
Microelectronics
Time: 2 Hrs
Max Marks: 40
‘Please check whether you have got the right question paper’
N.B:liii. All the questions are compulsory.
liv. Use separate answer book for each section.
lv. ……………………………………………
lvi. ……………………………………………
Section A
Question No. 1
08 Marks
This Question will consist of questions from the entire chapter under section A mentioned in the
syllabus.
Question No.2 OR Question No.2
Question No.3 OR Question No.3
06 Marks
06 Marks
Note:
1. The topic may be intermingled in the questions.
2. The questions will be memory based, application based and understanding type.
Section B
Question No. 4
08 Marks
This Question will consist of questions from the entire chapter under section B mentioned in the
syllabus.
Question No.5 OR Question No.5
Question No.6 OR Question No.6
06 Marks
06 Marks
Note:
3. The topic may be intermingled in the questions.
4. The questions will be memory based, application based and understanding type.
49/56
T. Y. B. Tech. Electronics & Telecommunication Engineering (Revised Syllabus)
SEMINAR
Structure
Periods
L
---
P
02
Total
02
Evaluation Scheme
Sessional Exam
ESE
TA
CT
TH
PR
50
-------
Total
50
Credit
1
Objective:
1. To create awareness amongst pre final year students for latest technological Aspects
2. To improve presentation and communication skills
3. To inculcate qualities of team work and team spirit
4. To motivate for research work in the respective areas
5. To have common platform where interaction between various groups of students will
take place on the various advanced and emerging topics of technology
6. To improve skills related to search on the internet
7. To realize importance of basic technological aspects.
Guidelines for students and faculty:
1. Seminar topics may be chosen by the students with advice from the guide/Industry persons,
which shall be finalized by guide and approved by concerned head of the department. Students
are to be exposed to the following aspects of the seminar presentation.
a) Literature Survey / Review
b) Organization of the material
c) Preparing for presentation
d) Technical writing
1.
Each student is required toa)
Submit one page synopsis before the seminar talk for display on the notice board and
b)
Give a 20 minutes presentation through OHP, PC, and Slide projector followed by a 10
minute question answer session.
2.
For award of Sessional marks:
a) 25 marks - based on the assessment done by internal guide during semester and the
involvement of student in the work assigned related to the seminar topic
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b) Remaining 25 marks based on the examination at final presentation. Student is to be
examined on the basis of an oral and written presentation by at least two examiners, one
of them shall be guide and other as an external examiner appointed by the principal of the
institute.
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Seminar Report format
The Seminar Report shall be typed on A-4 size white bond paper.
Typing shall be with spacing of 1.5 using one side of the paper.
Margins:• Left 37.5 mm
• Right, top and bottom 25 mm.
Binding: • Hard with golden embossing on the front cover of brown colour
Front cover of hard bound report:It should be identical to first title page.
Default font size TNR-12
1) Format for title page (First Page) (Centre justified)
Report of Seminar (TNR-14, Bold)
in
{Title}(TNR-18, Bold)
by
{Name of student}(TNR-16, Bold)
(Roll No:
)
Submitted in partial fulfillment of the requirement for
Degree of Bachelor of Technology (Branch Name) (TNR-14, Bold)
of
Dr. Babasaheb Ambedkar Marathwada University,
Aurangabad. (TNR-14, Bold)
Department of ____________Engineering, (TNR-14, Bold)
Maharashtra Institute of Technology, (TNR-16, Bold)
Aurangabad. (TNR-14, Bold)
200 - 200
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2) Format for Certification page (Second page)
CERTIFICATE (TNR-16, Bold)
This is to certify that the Seminar Report
Submitted by
(Name of Student) (TNR-14, Bold)
(Roll No: __)
Is completed as per the requirement of the Dr. Babasaheb Ambedkar Marathwada
University, Aurangabad in partial fulfillment of
Degree of Bachelor of Technology (Branch Name) (TNR-14, Bold)
For the academic Year 20__ - 20__
(Name)
Guide
(Name)
Head of Department
(Name)
Principal (TNR -12, Bold)
3) The third page will be certificate issued by the industry regarding the completion
of Seminar if applicable.
4) The fourth page would be for acknowledgement, which would be followed by
index page (Fifth page).
5) Sketches should be drawn on separate sheet (minimum A4 size) and be inserted at
proper places. The sketches should be drawn in black ink and be numbered.
6) Tables should preferably type in the text only.
7) The mathematical symbol should be typed or neatly written so as to match
darkness of the text.
8) The last item on the index should be references.
9) Page number must appear on the right hand top corner of each page starting after
index page.
10. The contents of the seminar can be decided by the internal guide / department and
student.
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11. Minimum number of copies = 5 Copies (Central Library + Department + Internal
Guide + External Examiner + Student). The copy of External Examiner will be
submitted by the student after completion of Seminar.
General Attributes
•
•
•
•
•
•
•
Chapter heading -All Capital—TNR 14 Font (Bold)
Heading –All Capital- TNR 12 Font (Bold)
Subheading–Title case- TNR12 Font (Bold)
Text – TNR11 Font
Title of the Report should not be more than two lines
Page numbers are at right hand corner at ½ inch from right and top side.
Page number should be allotted only from Chapter no. 1 onwards.
References
Last chapter of the report is references including the addresses of websites.
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Report of Seminar
in
Remote Sensing through Satellite System
by
Mr. Prasad V Muley
(Roll No:
)
Submitted in partial fulfillment of the requirement for
Degree of Bachelor of Technology (Electronics &
Telecommunication),
of
Dr. Babasaheb Ambedkar Marathwada University,
Aurangabad.
Department of Electronics & Telecommunication Engineering,
Maharashtra Institute of Technology,
Aurangabad.
200 - 200
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CERTIFICATE
This is to certify that the Seminar Report
Submitted by
Mr. Prasad V Muley
(Roll No:
)
Is completed as per the requirement of the Dr. Babasaheb Ambedkar Marathwada
University, Aurangabad in partial fulfillment of
Degree of Bachelor of Technology
(Electronics & Telecommunication Engineering)
For the academic Year 200 – 200
(Name)
Guide
(Name)
Head of Department
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(Name)
Principal