|
B.E. IC 4th Year
|
B.E.IV
(IC) 7th Semester |
Teaching
Scheme |
Examination
Scheme |
| Theory
Exam |
Practical/Quiz/Viva/T.W.
|
| University
Exam. |
TUT |
CONT.
EVOLUTION |
TOTAL
MARKS |
|
COURSE NAME |
COURSE
NO |
L
|
T |
P |
DUR |
MKS |
DUR |
MKS |
|
Digital & Distributed Control system |
IC
701 IC |
3 |
1 |
2 |
3
Hr |
100 |
3
Hr
|
30 |
25 |
20 |
75 |
|
System Design |
IC 702 IC |
3 |
1 |
0 |
3 Hr |
100 |
--- |
--- |
25 |
--- |
25 |
|
Transducers and signal Processing |
IC 703 IC |
3 |
1 |
2 |
3 Hr |
100 |
3
Hr |
30 |
25 |
20 |
75 |
|
Process Instrumentation |
IC 704 IC |
3 |
1 |
2 |
3 Hr |
100 |
3
Hr |
30 |
25 |
20 |
75 |
| Industrial
Drives And Control |
IC
705 IC |
3 |
0 |
2 |
3
Hr |
100 |
3
Hr |
30 |
--- |
20 |
50 |
|
Project Preliminaries |
IC 706 IC |
0 |
0 |
4 |
--- |
--- |
--- |
30 |
--- |
20 |
50 |
|
Industrial Training /Industrial Practice |
IC 707 IC |
0 |
0 |
0 |
--- |
--- |
--- |
30 |
--- |
20 |
50 |
|
* Internal Examination, Project Preliminaries, Industrial
Training /Industrial Practice is not to be considered as
a passing head and evaluation is to be done by the Department |
| TOTAL |
18 |
4 |
4 |
--- |
600 |
--- |
120 |
100 |
80 |
300 |
| Total
Contact Hours : 030 |
| Total
Marks
: 900 |
|
B.E.IV
(IC) 8th Semester |
Teaching
Scheme |
Examination
Scheme |
| Theory
Exam |
Practical/Quiz/Viva/T.W.
|
| University
Exam. |
TUT |
CONT.
EVOLUTION |
TOTAL
MARKS |
|
COURSE NAME |
COURSE
NO |
L
|
T |
P |
DUR |
MKS |
DUR |
MKS |
|
Modern Digital Control System |
IC
801 IC |
3 |
1 |
0 |
3
Hr |
100 |
3
Hr
|
30 |
25 |
20 |
75 |
|
Instrumentation Systems & Interfacing |
IC 802 IC |
3 |
1 |
2 |
3 Hr |
100 |
3
Hr |
30 |
|
20 |
50 |
|
Project planning estimation & Quality Systems |
IC 803 IC |
3 |
0 |
2 |
3 Hr |
100 |
3
Hr |
30 |
25 |
20 |
75 |
|
Elective - I |
IC 81X IC |
3 |
0 |
0 |
3 Hr |
100 |
--- |
--- |
25 |
--- |
25 |
| Elective
- II |
IC
82X IC |
3 |
0 |
0 |
3
Hr |
100 |
3
Hr |
30 |
25 |
20 |
75 |
|
Project |
IC 806 IC |
0 |
0 |
8 |
--- |
--- |
--- |
30 |
--- |
20 |
50 |
|
Seminar |
IC 807 IC |
0 |
2 |
0 |
--- |
--- |
--- |
30 |
--- |
20 |
50 |
| TOTAL |
15 |
4 |
12 |
--- |
500 |
--- |
210 |
50 |
140 |
400 |
| Total
Contact Hours : 030 |
| Total
Marks
: 900 |
Note :
1. Students have to opt one subject each from Group-I and Group-II
.
2. Seminar is not to be considered as a passing head and evaluation
is to be done by the Department.
LIST OF ELECTIVES
| Sr.
No. |
Name
Of Subject |
Code |
|
GROUP - I (EC 81X EC)
|
|
1
|
Telematics |
EC
811 EC
|
|
2
|
Advanced Microprocessor
|
EC
812 EC
|
|
3
|
Programmable Logic Controllers
& Distributed Control Systems. |
EC
813 EC
|
|
4
|
Biomedical Instrumentation |
EC
814 EC
|
|
5
|
Digital & HD TV Technology |
EC
815 EC
|
|
6
|
Internet, Programming &
Application |
EC
816 EC
|
|
7
|
Fuzzy Logic in Control Systems |
EC 817
EC
|
|
GROUP - II (EC 82X EC)
|
|
1
|
Mobile Communication |
EC 821 EC |
|
2
|
Advance Power Electronics |
EC 822 EC |
|
3
|
Advanced Analog Integrated
Circuits |
EC 823 EC |
|
4
|
Process Instrumentation
and Control |
EC 824 EC |
|
5
|
Radar And Navigational
Aids |
EC 825 EC |
|
6
|
Computer based Information
Processing |
EC 826 EC |
|
7
|
Micro controllers and Applications. |
EC 827 EC |
EC 701 EC : Microwave Techniques
B E IV (Electronics Engg) – 7th Semester (New Scheme)
| |
Lecture |
Tutorial |
Practical |
| Teaching
Hours |
3 |
0 |
0 |
| Examination
Scheme Marks |
100 |
0 |
Cont. Evaluation : 20
Examination : .30 |
| Name |
Detail |
| Microwave
Transmission Lines : |
Transmission-line
equations and solutions, reflections coefficient and transmission
coefficient standing wave ratio, line impedance and admittance,
Smith chart, impledance matching.
|
| Microwave
Waveguides and Components : |
Rectangular
and circular waveguides, microwave cavities, microwave
hybrid circuits, directional couplers, circulators and
isolators.
|
| Microwave
Solid State Devices : |
Gunn
diodes, RWH theory, modes of operation, microwave generation
and amplification. Read diodes, IMPATT, TRAPATT, BARITT
diodes, parametric devices.
|
| Microwave
Tubes : |
Klystrons,
Travelling wave tubes, Magnetrons.
|
| Application
of Microwaves : |
Radar
: Nature of Radar, Radar Equations, CW and FMCW Radar,
MTI and Pulse Doppler Radar, Tracking Radar. Overview,
DME, TACAN, Instrument Landing System, GCA, Doppler Navigation,
Satellite Navigation, Global Positioning System
|
| Microwave
Navigation : |
Overview,
DME, TACAN, Instrument Landing System, GCA, Doppler Navigation,
Satellite Navigation, Global Positioning System
|
| References: |
1.
Microwave Devices and Circuits by Samuel Y. Liao, PHI, 1995
2. Foundations for Microwave Engineering by Robert E. Collin,
McGraw Hill (International Edition), 1996.
3. Elements of Electronics Navigation by N.S. Nagraja, TMH
Pub . Co.
4. Introduction to Radar Systems by S. I. Skolnik, McGraw
Hill (International Student Edition). |
EC
702 EC : Digital Signal Processing
B E IV (Electronics Engg) – 7th Semester (New Scheme)
| |
Lecture |
Tutorial |
Practical |
| Teaching
Hours |
3 |
1 |
2 |
| Examination
Scheme Marks |
100 |
25 |
Cont. Evaluation : 20
Examination : .30 |
| Name |
Detail |
| Introduction
to Continuous-time Signals and Systems: |
Continuous-time
signals, Continuous-time systems and their properties,
Convolution representation of linear, time-invariant
continuous-time systems, Convolution of continuous-time
signals, Laplace transform and transfer function representation,
Frequency response function, The Fourier series and
Fourier transform
|
| Discrete-time
Signals and Systems: |
Discrete-time
signals : Sequences, Discrete-time systems, Linear time-invariant
systems, Convolution representation of linear time-invariant
discrete-time systems, Convolution of discrete-time
signals, Linear difference equations with constant coefficients,
Realizations, Frequency-domain representation of discrete-time
signals and systems
|
| Sampling
of Continuous-time Signals : |
Periodic
sampling, Frequency-domain representation of sampling,
Reconstruction of a band-limited signal, Discrete-time
processing of continuous-time signals, Continuous-time
processing of discrete-time signals, Changing the sampling
rate using discrete-time processing
|
| The Z-Transform
: |
The
Z-transform, Properties of the Z-transform, Transfer
function representation, Inverse Z-transform, Z-transform
applied to difference equations, The complex convolution
theorem, Stability of discrete-time systems, Frequency
response of discrete-time systems
|
| The Discrete
Fourier Transform : |
Discrete-Time
Fourier Transform (DTFT), The Discrete Fourier series,
The Fourier transform of periodic signals, Discrete
Fourier Transform (DFT), Properties of the DFT, System
analysis via the DTFT and DFT, Circular convolution,
Linear convolution using the DFT, Implementation of
the DFT using convolution
|
| The Fast
Fourier Transform (FFT) Algorithms : |
Decimation
in time FFT, Introduction to radix-2 FFTs, Some properties
of radix-2 decimation in time FFT, Decimation in frequency
algorithm, Computing the inverse DFT by doing a direct
DFT.
|
| Introduction
to Digital Filters : |
Recursive Digital Filters - Infinite Impulse Response
(IIR) Filters : Analog approximations, Impulse invariant
method, Bilinear transformation method, Matched Z-Transform
method, Realizations, Non-recursive Digital Filters
- Finite Impulse Response (FIR) Filters : Fourier series
method, Frequency-sampling method, Realizations, Direct
realization of Digital Filters
|
| Introduction
to Digital Signal Processor Architecture and DSP chips
: |
Design
procedure for Digital Signal Processing hardware, Special
purpose hardware for the FFT, Case study of Analog Devices
Digital Signal Processors, Case study of Texas Instruments
Digital Signal Processors. TMS320C2x Assembly Language
Instructions:Memory address mode,instruction set,software
Applicartion.
|
| Applications
of Digital Signal Processing : |
Applications
in Speech technology : The Speech signal, Representation,
Model of speech production, Digital transmission and
storage of speech, Speech synthesis systems, Speaker
verification and identification, Speech recognition
systems
|
| Applications
in Image Processing : |
Introduction
to the theory of two-dimensional signal processing,
Two-dimensional signals and systems, Two-dimensional
difference equations, Two-dimensional Z-transform, Two-dimensional
DFT, Two-dimensional filter design, Image representation,
enhancement, restoration, coding, compression, etc.
|
| An introduction
to the Theory of Multirate Signal Processing : |
Decimation
by a factor of D, Interpolation by a factor of I, Sampling
rate conversion by a rational factor I/D, Filter design
and implementation for sampling rate conversion, Applications
of Multirate Signal Processing
|
| References: |
1.
Edward W. Kamen, Introduction to Signals and Systems,
Macmillan Pub. Co., New York.
2. Alan W. Oppenheim & Ronald W. Schafer, Discrete-time
Signal Processing, Prentice-Hall of India Private Limited,
New Delhi.
3. Roman Kuc, Introduction to Digital Signal Processing,
McGraw-Hill International Editions, Electrical Engineering
Series.
4. John G. Proakis & Dimitris G. Manolakis, Introduction
to Digital Signal Processing, Macmillan Publishing Co.,
New York.
5.Lawrence R. Rabiner & Bernard Gold, Theory and Applications
of Digital Signal Processing, Prentice-Hall of India Private
Limited, New Delhi.
6. Andreas Antoniou, Digital Filters Analysis and Design,
Tata McGraw-Hill Publishing Company Limited, New Delhi.
7. Johnny Johnson, Introduction to Digital Signal Processing,
Prentice-Hall of India Private Limited, New Delhi.
|
EC 703 EC : Electronic
System Design B E IV (Electronics Engg) –
7th Semester (New Scheme)
| |
Lecture |
Tutorial |
Practical |
| Teaching
Hours |
3 |
1 |
2 |
| Examination
Scheme Marks |
100 |
25 |
Cont. Evaluation : 20
Examination : .30 |
| Name |
Detail |
| LINEAR
POWER SUPPLIES : |
Basic
operation, voltage regulator circuits, Dual – track
voltage regulator, Power dissipation in series pass
transistor, Out put resistance , load and line regulation
protection circuit fold-back, thermal and crawbar, Three-
terminal regulator (fixed regulator) voltage adjustment
and current Boosting of fixed regulator merits and drawbacks
of linear regulators.
|
| SWITCHING POWER
SUPPLY : |
Basic
operations choice of switching frequency-operation and
design of different types of switching regulators, buck
type, boost type buck-boost, isolated multi-winding
SMPS : push-pull, fold back and fly back configuration
(discontinuous mode),Design of filter inductors and
high frequency transformers, Feedback loop stabilization,
Merits & Demerits of SMPs.
|
| FUNCTION GENERATORS
: |
Realization
of functions : square, square root, log-antilog, sine
& cosine, Analog Scheme using op-amps and analog
multiplier ICs., Digital scheme using ADC, DAC, EPROM
device and Microprocessors.
|
| ELECTRONICS CONTROLLER
: |
P,PI
, PID Controllers- Realization for system with known
parameters. Tuning of PID control parameters using decouple
PID Model.
|
| SPECIFIC APPLICATIONS
: |
Schmitt
Trigger, Static relay for system protection Clamping
Circuit, Soft-Starters Peak Detectors
|
| SCOPE OF ELECTRONIC
DESIGN & MANUFACTURING : |
Introductory model of product, development, process
developing, an integrated system approach to electronics
design and manufacturing, Product Development and integrated
testing, concept of reliability & testing and performance
objectives.
|
| INTRODUCTION TO
STANDARDS & PATENTS : |
Procedures and methods for patent, legal aspects and
patent right etc.
|
| References: |
Abraham
I Pressman Switching Power Supply Design,– McGraw Hill
–1992.
Gaikwad , Linear Electronics.
Mitchel & Mitchel (Jr.), Electronics Circuit Design,
IInd Edition, 1995, PHI(EEE). |
EC 704 EC : Modern
Communication Systems
B E IV (Electronics
Engg) – 7th Semester (New Scheme)
| |
Lecture |
Tutorial |
Practical |
| Teaching
Hours |
3 |
1 |
2 |
| Examination
Scheme Marks |
100 |
25 |
Cont. Evaluation : 20
Examination : .30 |
| Name |
Detail |
| FIBER
OPTICS : |
| Introduction: |
Nature
of Light, Basic Optical Laws and Definitions, Fiber
Modes and Configurations, Fiber Materials, Fiber Fabrication,
Fiber Optic Cables.
|
| Signal Degradation
in Optical Fibers : |
Attenuation,
Signal Distribution in Optical Wave guides.
|
| Optical Sources
: |
LEDs,
Laser Diodes.
|
| Power Launching
and Coupling : |
Coupling,
Joints, Splicing, Connectors.
|
| Photodetectors: |
Physical
Principals of Photodiodes.
|
| Digital Transmission
Systems : |
Point-to-point Links, System Considerations, Link Powerbudget,
Overview of Analog Links
|
| Advanced Systems
and Techniques : |
Wave Length Division Multiplexing, Local Area Networks.
|
| SATELLITE
COMMUNICATION : |
| Introduction
: |
Orbltal,
Geostationary Satellites, Orbltal Spacing, Satellite
System Parameters, Link Equations and Link Budget.
|
| Satellite Multiple-
Access Arrangements : |
TDMA,
FDMA, CDMA, Frequency Hopping and Channel Capacity.
|
| Power – Efficient
Digital Modulation Techniques : |
BPSK,
QPSK, MSK
|
| Spectrum – Efficient
Digital Modulation Techniques : |
8-psk, M – ary Systems
|
| Error Detection
and Correction : |
Introduction,
Source Encoding, Block Codes Repetition codes, Linear
Codes, Cyclic Codes, Convolutional Codes.
|
| Satellite Earth
Station : |
Antenna, LNA, HPA.
|
| References: |
1.
Optical Fiber Communications by Gerd Kelser, McGraw Hill,
International Edition, 1996.
2. Optical Communication Systems by Johan Gower, Prentice
Hall of India, 1994
3. Advanced Electronics Communication Systems by Wayne
Tomasi, Prentice Hall of India, 1996.
4. Digital Communications with Satellite Earth Station
Engg. By FEHER, Prentice Hall, International, 1994
5. Satellite Communication by Gagliardi, Publication |
EC 705 EC : Electronic
Instrumentation
B E IV (Electronics Engg) – 7th Semester (New Scheme)
| |
Lecture |
Tutorial |
Practical |
| Teaching
Hours |
2 |
1 |
2 |
| Examination
Scheme Marks |
100 |
25 |
Cont. Evaluation : 20
Examination : .30 |
| Name |
Detail |
| Introduction: |
Electronics Instrumentation-generalize
approach for measurement, system configuration. Performance
characteristics of measuring system. Marits Of electronics
Instrumentation. Comparison of analog and digital Instrumentation. |
| Transducers
and sensors : |
Classification of Transducers-
Active, Passive, Analog, Digital. Transducers-Temperature
, Electromagnetic , Capacitive, Metallic and Semiconductor
strain gages. |
| Single
conditioning : |
Instrumentation Amplifier,
Transducer bridge, V/I controller, I/V controller , V/F
controller , F/V controller , Two wire 4 to 20 mA Transmitter
, Leniarization Technique , Filtering – antialiasing filter
,Active filter ,switch capacitor filter. Noise reduction-
Capacitive , Inductive and Conductive noise coupling ,Improvement
of Signal to Noise ratio by synchronous detection and
signal averaging. |
| Isolation
Techniques : |
Transformer isolation,
Optical isolation , Hall sensors – Measurement of voltage
,current and power using Hall sensors.
|
| Data
Acquisition and Conversion : |
Analog signal processing
– Sample and Hold circuits, Sampling Theorem, Relation
between ADC resolution and sampling rate, Analog mux and
analog Channel expansion , A/D converter, Digital mux
and Digital channel expansion . D/A converter and analog
/ Digital demux. |
| Display
and Recording Devices: |
Bargraph display, Seven
segment and dot-matrix display , Character generator ,
Multiplex display and digital Recorder |
| References
: |
1. C.S . Rangan
: Instrumentation Devices And Systems. TMH, 1990.
2. Copper W.D :Electronics Instrumentation and Measurement
Techniques , PHI(EEE)
3. A.J.Bowels : Digital Instrumentation , Mc-Graw Hill
,1986 |
EC 706 EC : Project
Preliminaries
B E IV (Electronics
Engg) – 7th Semester (New Scheme)
| |
Lecture |
Tutorial |
Practical |
| Teaching
Hours |
0 |
0 |
3 |
| Examination
Scheme Marks |
- |
- |
Cont. Evaluation : 20
Examination : .30 |
EC 801 EC : Audio and
Video Engineering
B
E IV (Electronics Engg) – 8th Semester (New Scheme)
| |
Lecture |
Tutorial |
Practical |
| Teaching
Hours |
3 |
0 |
2 |
| Examination
Scheme Marks |
100 |
0 |
Cont. Evaluation : 20
Examination : .30 |
| Name |
Detail |
| Vision characteristics
and scanning system: |
Introduction to basic
Television systems, characteristics of human Eye, resolution
of Brightness perception. Aspect ratio, Flicker. The Kell
Factor. Horizontal and vertical resolution, Video Band
width, Inter laced scanning. Composite video signal: Video
signal components, Video Modulation .Vertical side band
signal .Sound Modulation and inter carrier system, Reception
of vestigial side band signal Television broadcast channels
and standards.
|
| Television cameras
and picture tubes: |
TV camera tubes, Image
orthicons videcon plumbicon, pickup tube deflection unit,
Video processing of pickup tube signal, electron optics,
Electron Gun. Screen and Filters, Deflection of electron
beam geometrical Distortion of Booster, transfer characteristics
of picture tubes. |
| Video Amplifier
and Video Circuits : |
Transistor, IF amplifier
design, Video Detector, Detector polarities, DC components
Restoration, HF and LF composition techniques, AGC circuits.Horizontal
and Vertical Deflection systems and EHT generation. |
| Colour Television
: |
Colour Fundamentals,
Colour T.V cameras, Colour picture tube, colour T.V transmission
and reception, NTSC SECAM system, PAL system. |
| Audio Engineering
: |
Characteristic of sound,
Microphones and Loud speakers, Magnetic recording and
reproduction, Optical recording, noise, Distortion and
High Fidelity, Stereo tape recording and reproduction,
Stereo control, Public address system. |
| V.C.R. |
| References
: |
1. A. M DHAKE
: Television Engineering .
2. GULATI : Monochrome and colour TV
3. GULATI : Colour T.V Engineering
4. R. G GUPTA : Audio Video system |
802 EC : VLSI Technology
B E IV (Electronics
Engg) – 8th Semester (New Scheme)
| |
Lecture |
Tutorial |
Practical |
| Teaching
Hours |
3 |
0 |
0 |
| Examination
Scheme Marks |
100 |
0 |
Cont. Evaluation : 00
Examination : 00 |
| Name |
Detail |
| Introduction
to VLSI & practical consideration : |
Introduction, Size &
complexity of integrated circuit, The microelectronic
field, IC Design process, economics, yield, Trends in
VLSI design |
| Technology : |
IC production process,
Semiconductor processes, Design rules & process parameters,
Layout technique & practical consideration. |
| Device modeling
& Circuit simulation : |
Modeling, MOS models
Diode models, Bipolar models, passive component models.
Circuit simulation using spice, MOSFET model, Diode model
,BJT model. |
| Basic IC building
blocks : |
Switches, active resistors,
current sources & sinks, current mirrors/amplifiers,
voltage & current references |
| Amplifiers : |
Inverting amplifiers,
improving the performance of inverting amplifier, Differential
amplifiers, Output amplifiers, operational amplifiers,
comparators |
| Digital Circuits
: |
Design abstraction, Characteristics
of digital circuits, single channel MOS inverters, NMOS
NOR & NAND logic circuits , Complementary MOS inverters,
CMOS logic gates, Transmission gates, single propagation
delays, Capacitive loading consideration, Power dissipation,
Noise in digital logic circuits |
| Structured Digital
Circuits & systems : |
Random logic versus structured
logic forms, PLA, Structured gate layout, Logic gate arrays,
MOS clocking schemes, Dynamic MOS storage circuit, Clocked
CMOS logic, Semiconductor memories, Read only memory,
Static RAM memories, Dynamic RAM memory, Register storage
circuit, PLA based finite state machine, Microcoded controllers,
Microprocessor design, Systolic arrays Introduction to
computer based VLSI design. |
| References
: |
1. Randall
L Gieger Phillip E. Allen, Noel R. Strader, VLSI Design
Techniques for Analog & Digital Circuits.
2. Jaeger, Microelectronics Circuit Design McGraw Hill.
IS Edition
3. Sze, VLSI Technology, 2nd Edition, 199 , McGraw Hill,
IS Edition. |
EC 803 EC : Computer
Communication & Networking
B E IV (Electronics
Engg) – 8th Semester (New Scheme)
| |
Lecture |
Tutorial |
Practical |
| Teaching
Hours |
|
|
|
|
|
