ELECTRONICS
2nd Semester |
S. No. |
Course Code |
Subject |
L |
T |
P |
Credits |
|
1 |
EC 521 |
Telecommunication Systems |
4 |
0 |
0 |
4 |
|
2 |
EC 522 |
Microcontroller & Embedded Systems |
4 |
0 |
0 |
4 |
|
3 |
MA 505 |
Design of experiments and research methodology |
4 |
0 |
0 |
4 |
|
4 |
|
Elective II |
4 |
0 |
0 |
4 |
|
Elective II |
1 |
EC 523 |
Advanced Digital Signal Processing |
|
|
|
2 |
EC 524 |
Neural Networks |
|
|
|
|
|
3 |
EC 525 |
Optoelectronics & Communication |
|
|
|
|
|
4 |
EC 526 |
Nanotechnology |
|
|
|
|
|
Course Name : TELECOMMUNICATIONS SYSTEMS
Course Code : EC 521
Credits : 4
L T P : 4 0 0
Lecture wise breakup No of lectures
INTRODUCTION TO TELECOMMUNICATIONS: (08)
Telecommunication Technology
How it can meet various business needs
TELECOMMUNICATIONS BASICS: (10)
Concepts of Telecommunications technology, Encoding, Transmitting, Receiving Storing, Retrieving, Decoding, Basic Transmission Technology
VOICE TELECOMMUNICATIONS: (10)
Telephone services, Stationary Telephone Systems, Mobile Communication Systems
DATA TELECOMMUNICATIONS: (04)
Digital Transmission Basics, Transmission Methods, Transmission Mode.
LOCAL & WIDE AREA NETWORKS: (03)
Local Area Networks, Network Management System, Designing a Local Area Network, Interconnecting LANs & WANs.
VIDEO TELECOMMUNICATIONS: (04)
The Video Signal, Video Signal Compression Video Text, Teletext, Teleconferencing
MICROWAVE, SATELLITE, COPPER & FIBER OPTICS FOR VIDEO TRANSMISSION: (06)
Microwave Systems, Satellite Systems, Other Transmitting Systems, Cable systems, Fiber Optics.
VOICE, DATA & VIDEO INTEGRATION: (05)
Integrated services Digital Network
BOOK:
1. Introduction to Telecommunications: Voice, Data & the Internet - Cole
REFERENCES:1. Introduction to Data Communications & Networking by BEHROUZ FOROUZAN, Tata McGraw Hill Edition (Latest Edition)
Course Name : MICROCONTROLLER AND EMBEDDED SYSTEMS
Course Code : EC 522
Credits : 4
L T P : 4 0 0 Lecture wise breakup No of lectures
8 BIT MICROCONTROLLER (06)
8051 Architecture memory organization, SFR’s addressing modes, Instruction set, assembly language programming
PIC MICROCONTROLLER (12)
Introduction to 68HC11 family of microcontroller, CPU, Architecture & pipelining memory organization, CPU family registers, addressing modes Instruction set, Assembly language programming, using timers, subroutines, Interrupts I/O ports special feature
INTERFACING (05)
Interfacing ADC, DAC, LED, Switches, LCD with examples, RS – 232 / 422 link
FUNDAMENTALS OF EMBEDDED SYSTEMS (02)Real time systems, Multitasking system, operating system structures, building an embedded application
CONCURRENT SOFTWARE (04)Foreground / background systems, multithreaded programming, shared resources & critical sections.
SCHEDULING (04)
Thread states, pending threads, context switching, round robin scheduling, priority based scheduling , assigning priorities, deadlock.
BOOK:
- Muhammed Ali Mazidi & J G Mazidi, “The 8051 Microcontroller & Embedded Systems”, Pearson Education.
REFERENCES:
1. Kennith J Ayala “The 8051 Microcontroller Architecture Programming & Application”, PHI.
- Microcomputer Engineering by Gene H. Miller, Pearson Education
- Fundamentals of Embedded software by Danial W. Lewis, PHI
- Embedded Microcontroller by Todd D. Mortan, Pearson Education
Course Name : ADVANCED DIGITAL SIGNAL PROCESSING
Course Code : EC 523
Credits : 4
L T P : 4 0 0
Lecture wise breakup No of lectures
INTRODUCTION: (06)
Review of discrete Convolution, discrete time Fourier transform and Z- transforms, DFT, FFT. Relationship between continuous and discrete time systems; Difference equation for digital filters: definition and properties. MATLAB problems.
DIGITAL FILTERS: (06)
FIR filters, IIR filters. Digital filter design techniques: Impulse invariance. Bilinear transformation, finite difference, window design methods, frequency sampling optimization algorithms. MATLAB problems.
Wavelet Transform: (03)
Continuous & discrete wavelet transforms, Filter Banks. MATLAB problems.
TMS320C5X SERIES PROCESSORS: (10)
Architecture, Memory, Interrupts, Addressing modes, Assembly language programming.
Effects of finite word length in DSP systemS: (02)
Rounding and truncation errors, quantization effects in A/D converter, FIR and IIR filters
Multi-rate Signal Processing: (03)
Integer sampling rate conversion. Interpolation and decimation filters. Design of practical sampling rate converters. Sampling rate conversion by an arbitrary factor. Applications of multi-rate signal processing in telecommunications.
Adaptive Filtering: (03)
Concepts, Adaptive filters as noise cancellers, adaptive line enhancer, in-system modeling. Basic Wiener filter.
Applications of DSP: (02)
Radar, sonar, biomedical, communications, speech and image processing.
Basic Concepts of Speech Signal Processing (02)
BOOK:
- Digital Signal Processing-E C Ifeacher & B W Jervis; PHI
REFERENCES:
1. Digital Signal Processing-A.V. Oppenheim & B.W. Jervis; PHI.
2. Digital Signal Processing-J.G. Prokis & D.G. Manolakis; PHI.
3. Digital Signal Processing-M.H. Hayes; Schaum’s Outlines.
4. Digital Signal Processing-S Salivahanan, A Vallavraj & C Gyanapriya; TMH.
Course Name : NEURAL NETWORKS
Course Code : EC 524
Credits : 4
L T P : 4 0 0
Lecture wise breakup No of lectures
INTRODUCTION (4)
What is Neural Net?, Where are Neural Nets being used?, How are neural Networks used?, Who is developing Neural Networks?, When Neural Nets began: the McCulloch-Pitt
SIMPLE NEURAL NETS FOR PATTERN CLASSIFICATION (6)
Hebbnet, Perceptron, Adaline
PATTERN ASSOCIATION (8)
Training Algorithms for Pattern Association, Heteroassociative Memory Neural Network, Autoassociative Net, Iterative Autoassociative Net, Bidirectional Associative Memory (BAM)
NEURAL NETWORKS BASED ON COMPETITION (6)
Fixed Weight Competitive Nets, Kohonen Self Organizing Maps, Learning Vector Quantization, Comunterpropagation
ADAPTIVE RESONANCE THEORY (5)
Introduction, ART 1, ART 2
BACKPROPAGATION NEURAL NET (8)
Standard Backpropagation, Variations, Theoretical Results
A SAMPLER OF OTHER NEURAL NETS (6)
Fixed Weight Nets Constrained Optimization, A few More Nets that Learn, Adaptive Architectures, Neocognitron
Book:
1. Fundamentals of Neural Networks, Laurence Fausett, Pearson Education
REFERENCES:
1. Neural Networks, Haykin, Pearon Education
2. Neural Networks, Satish Kumar, TMH
3. Neural Networks for Pattern Recognition, Bishop, Oxford
4. Neural Networks Design, Hagan , Thomson learning
Course Name : OPTOELECTRONICS AND COMMUNICATION
Course Code : EC 525
Credits : 4
L T P : 4 0 0
Lecture wise breakup No of lecture
FIBER OPTIC GUIDES (09)
Light wave generation systems, system components, optical fibers, SI, GI fibers, modes, Dispersion in fibers, limitations due to dispersion, Fiber loss, non linear effects, Dispersion shifted and Dispersion flattened fibers
OPTICAL TRANSMITTERS AND RECEIVERS (11)
Basic concepts, LED's structures spectral distribution, semiconductor lasers, gain coefficients, modes, SLM and STM operation, Transmitter design, Receiver PIN and APD diodes design, noise sensitivity and degradation, Receiver amplifier design.
LIGHT WAVE SYSTEM (12)
Coherent, homodyne and heterodyne keying formats, BER in synchronous- and asynchronous-receivers, sensitivity degradation, system performance, Multichannel, WDM, multiple access networks, WDM components, DWDM , Optical Code division multiplexing.
AMPLIFIERS (10)
Basic concepts, Semiconductor laser amplifiers, Raman - and Brillouin - fiber amplifiers, Erbium doped – fiber amplifiers, pumping phenomenon, LAN and cascaded in-line amplifiers.
DISPERSION COMPENSATION (10)
Limitations, Post-and Pre-compensation techniques, Equalizing filters, fiber based gratings, Broad band compensation, soliton communication system, photonics.BOOK:Keiser, "Optical fibre communication", Tata McGraw Hill
REFERENCES:
- John M Senior, " Optical Fibre Communication -Principles and Practice ", Prentice Hall International
- Joseph C Patios, "Fibre Optical Communications", Prentice Hall International
- John Gowar, "Optical Communication System", Prentice Hall International
- Sharma, "Fibre Optics in Telecommunication", Tata Mc Graw Hill
- M K Liu, "Principles and applications of optical communication ", Tata Mc Graw Hill
Course Name : NANO TECHNOLOGY
Course Code : EC 526
Credits : 4
L T P : 4 0 0
Lecture wise breakup No of lectures
INTRODUCTION: (16)
Introduction to nanoscale systems, lengh energy and time scales, top down approach to nanolithography, spatial resolution of optical, deep ultraviolet, x-ray, electron beam and icon beam lithography, single electron transistor, coulomb blockade effects in ultra small metallic tunnel junctional.
QUANTUM MECHANICS: (18)
Quantum confinement of electron in semiconductor nano structures, two dimensional confinement (Quantum wells) Band gap engineering, epitaxy landaeur-buttiker formatism for conduction in confined geometrical, one dimensional confinement, quantum point contacts, quantum dots and Bottom up approach; Introduction to quantum methods for information processing.
MOLECULAR TECHNIQUES: (16)
Molecular Electronics, Chemical self assembly, carbon nano tubes, self assembled nano layers, Electromechanical techniques, applications in biological and chemical detection, Atomic scale characterization techniques, scanning tunneling microscopy, atomic force microscopy
BOOK:
- Beenaker and Van Houten, “Quantum Transport in Semiconductor Nanostructures in Solid State Physics” Ehemreich and Turnbell, A Cademic Press, 1991.
REFERENCES:
- David Ferry “Transport in Nao Structures” Cambridge University Press 2000.
- Y Imry “Introduction to Meroscopic Physics”, Oxford University Press 1997.
- S Dutta “Electron Transport in Mesoscopic System” Cambridge University Press 1995.
- H. Grabert and M Devoret “Single Charge Tunneling” Plenum Press 1992.
Course Name : DESIGN OF EXPERIMENTS AND RESEARCH METHODOLOGY
Course Code : MA 505
Credits : 4
L T P : 4 0 0
Lecture wise breakup No. of Lectures
Basic principles of design of experiment, Error analysis in experiments.
(10)
Classification of experimental designs, Design and analysis of one factor experiments -Completely randomized and randomized complete block designs, Analysis of variance.
(8)
Estimation of parameters, Residual analysis and model checking, Sample size problem.
(5)
Design with two blocking variables, Latin squares, Analysis of data from a Latin square.
(2)
Experiment with two factors- Introduction, Main effects and interactions, Two-factor analysis of variance, Graphic analysis, Choice of sample size.
(6)
Design of Experiments with the help of orthogonal arrays, Taguchi’s Robust parameter design, Analysis, Noise factors, Tolerance on control factors.
(5)
Research Methodology – Nature and objective of research, Research topic, Literature review, Formulation of problem, Research design, Sampling techniques, Data collection, Statistical and sensitive analysis of data, Interpretation of result and report writing.
(10)BOOK Probability and Statistics for Engineers and scientists, Walpole, Myers, Myers and Ye, 7th ed, 2002, Pearson Education.REFERENCES Statistics in Research, Bernand Ostle and Richard N.Mensing 3rd ed, 1975, Oxford & IBH Pub Co.
Probability and Statistics in Engineering, Hines, Montgomery, Goldsman and Borror, 4th ed, 2003, John Wiley & Sons.
Experimental design, Theory & application, Federer, 1955, Oxford & IBH pub Co.
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