10144EC701 WIRELESS COMMUNICATION L T P C
3 0 0 3
UNIT I SERVICES AND TECHNICAL CHALLENGES 9
Types of Services, Requirements for the services, Multipath
propagation, Spectrum
Limitations, Noise and Interference limited systems,
Principles of Cellular networks,
Multiple Access Schemes.
UNIT II WIRELESS PROPAGATION CHANNELS 9
Propagation Mechanisms (Qualitative treatment), Propagation
effects with mobile radio,
Channel Classification, Link calculations, Narrowband and
Wideband models.
UNIT III WIRELESS TRANSCEIVERS 9
Structure of a wireless communication link, Modulation and
demodulation – Quadrature
Phase Shift Keying, /4-Differential Quadrature Phase
Shift Keying, Offset-Quadrature
Phase Shift Keying, Binary Frequency Shift Keying, Minimum
Shift Keying, Gaussian
Minimum Shift Keying, Power spectrum and Error performance
in fading channels.
UNIT IV SIGNAL PROCESSING IN WIRELESS SYSTEMS 9
Principle of Diversity, Macrodiversity, Microdiversity,
Signal Combining Techniques,
Transmit diversity, Equalisers- Linear and Decision
Feedback equalisers, Review of
Channel coding and Speech coding techniques.
UNIT V ADVANCED TRANSCEIVER SCHEMES 9
Spread Spectrum Systems- Cellular Code Division Multiple
Access Systems- Principle,
Power control, Effects of multipath propagation on Code
Division Multiple Access,
Orthogonal Frequency Division Multiplexing – Principle,
Cyclic Prefix, Transceiver
implementation, Second Generation(GSM, IS–95) and Third
Generation Wireless
Networks and Standards
TOTAL= 45 PERIODS
TEXT BOOKS:
1. Andreas.F. Molisch, “Wireless Communications”, John
Wiley – India, 2006.
2. Simon Haykin & Michael Moher, “Modern Wireless
Communications”, Pearson
Education, 2007.
REFERENCES:
1. Rappaport. T.S., “Wireless communications”, Pearson
Education, 2003.
2. Gordon L. Stuber, “Principles of Mobile Communication”,
Springer International Ltd.,
2001.
3. Andrea Goldsmith, Wireless Communications, Cambridge University Press, 2007.
10144EC702 OPTICAL COMMUNICATION AND NETWORKING L T P C
3 0 0 3
UNIT I INTRODUCTION 9
Introduction, Ray theory transmission- Total
internal reflection-Acceptance angle –
Numerical aperture – Skew rays – Electromagnetic mode
theory of optical propagation –
EM waves – modes in Planar guide – phase and group velocity
– cylindrical fibers –
SM fibers.
UNIT II TRANSMISSION CHARACTERISTICS OF OPTICAL FIBERS 9
Attenuation – Material absorption losses in silica glass
fibers – Linear and Non linear
Scattering losses - Fiber Bend losses – Midband and farband
infra red transmission –
Intra and inter Modal Dispersion – Over all Fiber
Dispersion – Polarization- non linear
Phenomena. Optical fiber connectors, Fiber alignment
and Joint Losses – Fiber Splices
– Fiber connectors – Expanded Beam Connectors – Fiber
Couplers.
UNIT III SOURCES AND DETECTORS 9
Optical sources: Light Emitting Diodes - LED structures -
surface and edge emitters,
mono and hetero structures - internal - quantum efficiency,
injection laser diode
structures - comparison of LED and ILD
Optical Detectors: PIN Photo detectors, Avalanche photo
diodes, construction,
characteristics and properties, Comparison of performance,
Photo detector noise -Noise
sources , Signal to Noise ratio , Detector response time.
UNIT IV FIBER OPTIC RECEIVER AND MEASUREMENTS 9
Fundamental receiver operation, Pre amplifiers, Error
sources – Receiver Configuration
– Probability of Error – Quantum limit.
Fiber Attenuation measurements- Dispersion measurements –
Fiber Refractive index
profile measurements – Fiber cut- off Wave length
Measurements – Fiber Numerical
Aperture Measurements – Fiber diameter measurements.
UNIT V OPTICAL NETWORKS 9
Basic Networks – SONET / SDH – Broadcast – and –select WDM
Networks –
Wavelength Routed Networks – Non linear effects on Network
performance –
Performance of WDM + EDFA system – Solitons – Optical CDMA
– Ultra High Capacity
Networks.
TOTAL= 45 PERIODS
TEXT BOOKS:
1. Optical Fiber Communication – John M. Senior – Pearson
Education – Second
Edition. 2007
2. Optical Fiber Communication – Gerd Keiser – Mc Graw Hill
– Third Edition. 2000
REFERENCES:
1.J.Gower, “Optical Communication System”, Prentice Hall of
India, 2001
2. Rajiv Ramaswami, “Optical Networks “ , Second Edition,
Elsevier , 2004.
3. Govind P. Agrawal, “ Fiber-optic communication systems”,
third edition, John Wiley &
sons, 2004.
4. R.P. Khare, “Fiber Optics and Optoelectronics”, Oxford
University Press, 2007.
10144EC703 RF AND MICROWAVE ENGINEERING L T P C
3 0 0 3
UNIT I TWO PORT RF NETWORKS-CIRCUIT REPRESENTATION 9
Low frequency parameters-impedance ,admittance, hybrid and
ABCD. High frequency
parameters-Formulation of S parameters, properties of S
parameters-Reciprocal and
lossless networks, transmission matrix, Introduction to
component basics, wire, resistor,
capacitor and inductor, applications of RF
UNIT II RF TRANSISTOR AMPLIFIER DESIGN AND MATCHING
NETWORKS 9
Amplifier power relation, stability considerations, gain
considerations noise figure,
impedance matching networks, frequency response, T and Π matching
networks,
microstripline matching networks
UNIT III MICROWAVE PASSIVE COMPONENTS 9
Microwave frequency range, significance of microwave
frequency range - applications of
microwaves. Scattering matrix -Concept of N port scattering
matrix representation-
Properties of S matrix- S matrix formulation of two-port
junction. Microwave junctions -
Tee junctions -Magic Tee - Rat race - Corners - bends and
twists - Directional couplers -
two hole directional couplers- Ferrites - important
microwave properties and applications
– Termination - Gyrator- Isolator-Circulator - Attenuator -
Phase changer – S Matrix for
microwave components – Cylindrical cavity resonators.
UNIT IV MICROWAVE SEMICONDUCTOR DEVICES 9
Microwave semiconductor devices- operation -
characteristics and application of BJTs
and FETs -Principles of tunnel diodes - Varactor and Step
recovery diodes - Transferred
Electron Devices -Gunn diode- Avalanche Transit time
devices- IMPATT and TRAPATT
devices. Parametric devices -Principles of operation -
applications of parametric
amplifier .Microwave monolithic integrated circuit (MMIC) -
Materials and fabrication
techniques
UNIT V MICROWAVE TUBES AND MEASUREMENTS 9
Microwave tubes- High frequency limitations - Principle of
operation of Multicavity
Klystron, Reflex Klystron, Traveling Wave Tube, Magnetron.
Microwave measurements:
Measurement of power, wavelength, impedance, SWR,
attenuation, Q and Phase shift.
TOTAL= 45 PERIODS
TEXT BOOK:
1) Samuel Y Liao, “Microwave Devices & Circuits” ,
Prentice Hall of India, 2006.
2) Reinhold.Ludwig and Pavel Bretshko ‘RF Circuit Design”,
Pearson Education, Inc.,
2006
REFERENCES:
1. Robert. E.Collin-Foundation of Microwave Engg –Mc Graw
Hill.
2. Annapurna Das and Sisir
K Das, “Microwave Engineering”, Tata Mc Graw
3. Hill Inc., 2004.
4. M.M.Radmanesh , RF & Microwave Electronics
Illustrated, Pearson
Education, 2007.
5. Robert E.Colin, 2ed “Foundations for Microwave
Engineering”, McGraw Hill, 2001
6. D.M.Pozar, “Microwave Engineering.”, John Wiley &
sons, Inc., 2006.
10144EC704 VLSI DESIGN L T P C
3 0 0 3
UNIT I CMOS TECHNOLOGY 9
A brief History-MOS transistor, Ideal I-V characteristics,
C-V characteristics, Non ideal I- V
effects, DC transfer characteristics - CMOS technologies,
Layout design Rules, CMOS process
enhancements, Technology related CAD issues, Manufacturing
issues
UNIT II CIRCUIT CHARACTERIZATION AND SIMULATION 9
Delay estimation, Logical effort and Transistor sizing,
Power dissipation, Interconnect,
Design margin, Reliability, Scaling- SPICE tutorial,
Device models, Device characterization, Circuit
characterization, Interconnect simulation
UNIT III COMBINATIONAL AND SEQUENTIAL CIRCUIT DESIGN 9
Circuit families –Low power logic design – comparison of
circuit families – Sequencing static
circuits, circuit design of latches and flip flops, Static
sequencing element
methodology- sequencing dynamic circuits – synchronizers
UNIT IV CMOS TESTING 9
Need for testing- Testers, Text fixtures and test programs-
Logic verification- Silicon debug
principles- Manufacturing test – Design for testability –
Boundary scan
UNIT V SPECIFICATION USING VERILOG HDL 9
Basic concepts- identifiers- gate primitives, gate delays,
operators, timing controls,
procedural assignments conditional statements, Data flow
and RTL, structural gate level switch
level modeling, Design hierarchies, Behavioral and RTL
modeling, Test benches, Structural
gate level description of decoder, equality detector,
comparator, priority encoder, half
adder, full adder, Ripple carry adder, D latch and D flip
flop.
TOTAL= 45 PERIODS
TEXTBOOKS:
1. Weste and Harris: “CMOS VLSI DESIGN “(Third edition)
Pearson Education, 2005
2. D.A Pucknell & K.Eshraghian , “ Basic VLSI Design “,
Third edition, PHI, 2003
REFERENCES:
1. Wayne Wolf, “ Modern VLSI design” , Pearson Education,
2003
2. M.J.S.Smith:” Application specific integrated circuits”,
Pearson Education, 1997
3. Ciletti , “ Advanced Digital Design with the Verilog HDL
“, Prentice Hall of India, 2003
4. J.Bhasker: “Verilog HDL primer “, BS
publication,2001(unit-V)
SEMESTER
VII – Elective II (E02)
Code
No. Course Title L T P C
10144ECE21
Advanced Digital Signal Processing 3 0 0 3
10144GE004
Total Quality Management 3 0 0 3
10144ECE23
Cryptography and Network Security 3 0 0 3
10144ECE24
Information Theory 3 0 0 3
10144GE010
Intellectual Property Rights 3 0 0 3
10144ECE26
Robotics 3 0 0 3
10144ECE27
Radar and Navigational Aids 3 0 0 3
SEMESTER
VII – Elective III (E03)
Code
No. Course Title L T P C
10144ECE31
Advanced Microprocessors 3 0 0 3
10144ECE32
Dot Net and Java Programming 3 0 0 3
10144ECE33
High Speed Networks 3 0 0 3
10144ECE34
Soft Computing 3 0 0 3
10144ECE35
Multimedia Compression & Communication 3 1 0 4
10144ECE36
Parallel and Distributed Processing 3 0 0 3
10144ECE37
Advanced Digital System Design 3 0 0 3
10144ECE38
Optoelectronic Devices 3 0 0 3
