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SYLLABI
for
B.Tech Programme
in
Electronics & Communication Engineering
National Institute of Technology Manipur
Department of Electronics & Communication Engineering
Imphal - 795001
Code 3rd Semester L T P
Total
CR
UEC03B01 Mathematics III 3 1 0 4
UEC03C01 Network Analysis and Synthesis 3 1 0 4
UEC03C02 Semiconductor Physics and Device 3 1 0 4
UEC03C03 Analog Electronics 3 1 0 4
UEC03C04 Signal & System 3 1 0 4
UEC03P01 Network Analysis and Synthesis Lab 0 0 6 2
UEC03P02 Analog Electronics Lab C0 0 6 2
Total 15 5 12 24
4th semester
UEC04C01 Analog Communication 3 1 0 4
UEC04C02 Control System 3 1 0 4
UEC04C03 Electromagnetic Theory, Transmission Line 3 0 0 4
UEC04C04 Digital Electronics 3 1 0 4
UEC04C05 Electrical and Electronic Measurement & Instrumentation 3 1 0 4
UEC04P01 Digital Electronics Lab 0 0 6 2
UEC04P02
Electrical and Electronic Measurement & Instrumentation
Lab 0 0 6 2
Total 15 4 12 24
5th Semester
UEC05C01 Digital Communication 3 1 0 4
UEC05C02 Antenna and wave propagation 3 1 0 4
UEC05C03 Numerical Methods and Analysis 3 1 0 4
UEC05C04 Microprocessor and Microcontroller 3 1 0 3
UEC05C05 Data Structure and Programming 3 0 0 3
UEC05P01 Microprocessor and Microcontroller Lab 0 0 6 2
UEC04P02 Data Structure and Programming Lab 0 0 6 2
UEC04P03 Viva Voce- I 0 0 3 2
Total 15 4 15 24
6th semester
UEC06C01 Microwave Engineering & Radar 3 1 0 4
UEC06C02 Digital Signal Processing 3 1 0 4
UEC06C03 VLSI Engineering 3 1 0 4
UEC06C04 Advanced Microprocessor and Computer Architecture 3 0 0 3
UEC06B01 Engineering Economics and Accounts 3 0 0 3
UEC06P01 Digital Signal Processing Lab 0 0 6 2
UEC06P02 VLSI Engineering Lab 0 0 6 2
UEC06P03 Viva Voce-II 0 0 3 2
Total 15 3 15 24
7th Semester
UEC07C01 Industrial Electronics 3 0 0 3
UEC07B01 Industrial Management 3 0 0 3
UEC07C02 Communication Network and Switching 3 0 0 3
UEC07C03 Elective I- Open Elective 3 0 0 3
UEC07C04 Elective II- Departmental Elective 3 0 0 3
UEC07P01 Project Preliminary 0 0 3 3
UEC07P01 Industrial Electronics Lab 0 0 6 2
UEC07P02 Communication Network and Switching Lab 0 0 6 2
UEC07P03 Viva Voce-III 0 0 3 2
Total 15 0 18 24
3rd Semester
Detailed Syllabus BTech III Semester (ECE)
Mathematics III
1. Probability and Statistics:
1.1. Probability and Random Variable: Axioms of probability, Conditional probability, Independent
events, Bayes Theorem, Random variables, Probability mass function, Probability density function -
properties, Moments, Moment generating functions and their properties.
1.2. Standard Distributions: Binomial, Poisson Normal distribution and their properties, function of
random variables.
1.3. Two-dimensional random variables: Joint distribution, Marginal and conditional distribution,
covariance, correlation and regression, Transformation of random variables, Central limit theorem.
1.4. Testing of hypothesis: Sampling distribution, Testing of hypothesis of mean, variance, proportion
and differences using Normal, t and Chi-square.
8th semester
UEC08C01 Introduction to Fibre Optic Communication 3 0 0 3
UEC08C02 Wireless & Mobile Communication 3 0 0 3
UEC08C03 Elective III- Open Elective 3 0 0 3
UEC08C04 Elective IV-Departmental Elective 3 0 0 3
UEC08P01 Introduction to Fibre Optic Communication Lab 0 0 6 2
UEC08P2 Wireless & Mobile Communication Lab 0 0 6 2
UEC08P03 Grand Viva 0 0 3 3
UEC08P04 Project Viva 0 0 6 5
Total
15 0 21 24
TOTAL 144
Code 3rd Semester L T P
Total
CR
UEC03B01 Mathematics III 3 1 0 4
UEC03C01 Network Analysis and Synthesis 3 1 0 4
UEC03C02 Semiconductor Physics and Device 3 1 0 4
UEC03C03 Analog Electronics 3 1 0 4
UEC03C04 Signal & System 3 1 0 4
UEC03P01 Network Analysis and Synthesis Lab 0 0 6 2
UEC03P02 Analog Electronics Lab C0 0 6 2
Total 15 5 12 24
2. Fourier Series: Periodic functions, Fourier series, Dirichlets conditions, function defined in two or
more sub-ranges, discontinuous functions, even function, odd function, half range series, change of
interval.
3. Partial Differential Equations: Order, Method of forming Partial Differential Equations, Solution of
Equation by Direct Integration, Lagranges Linear equation, Method of Multipliers, Partial Differential
equations non-linear in p,q, Charpits Method, Linear Homogeneous Partial Differential equation, Non-
Homogeneous Linear Equations, Method of Separation of variables, Equation of vibrating string, Solution
of wave equation by DAlemberts method, One dimensional heat flow, Two dimensional Heat flow.
References
1. Advanced Engineering Mathematics: E. Kreyszig. 2. Advanced Engineering Mathematics: H.K.Dass. 3. A Textbook of Engineering Mathematics: N.P.Bali & Manish Goyal. 4. Advanced Engineering Mathematics: B.S.Grewal. 5. Statistical Methods: Gupta & Kapoor/Kapoor & Sexena. 6. Integral Calculas: Maity & Ghosh.
Network Analysis and Synthesis
Linear Differential Solution: 1st order and 2nd order differential solution for Transient and steady state
response of R-L, R-C, L-C and R-L-C circuits.
Fourier series: Periodic & aperiodic functions and waveforms and its applications in electrical circuits /
Fourier transform of aperiodic functions / some properties of Fourier transformation
Laplace Transform: Initial value theorem, Final value theorem, Integral theorem, Differential theorem /
Concept of complex frequency / Analysis of various functions like gate function, step function, ramp
function, impulse function etc. / Transient and steady state response of R-L, R-C, L-C and R-L-C circuits
in transient with or without stored energy / solutions in t & s domain / Concept of natural frequency and
damping. / Transfer function / Wave form synthesis
Review of AC Circuits: Applications of Network theorems in AC Circuits: Thevenine, Norton, Maximum
power transfer, Superposition, Reciprocity, Substitution and Compensation, Tellegens Theorem.
Magnetically coupled circuits: Mutual inductance and its evaluation / Equivalent inductance of mutually
coupled circuits / signally tuned and doubly tuned transformer.
Resonance: Series and parallel resonance circuits
Graph of network: Concept of tree, link, tie-set and cut set matrix / Incidence matrix and its properties /
loop currents and node-pair potentials / Duality network
Two port networks: Impedance, admittance, transmission and inverse transmission parameters, hybrid and
inverse hybrid parameters / Interrelationship between the various parameters / Series, parallel, cascade
connection
Network functions and passive network synthesis: Concept of poles and zeros / conditions for driving
point function and transfer function / positive real function and their properties / testing procedure for PR
function / Image impedance parameters / Concept of symmetry / characteristic impedance and
propagation constant / Derivation of the synthesis procedure for LC and RC passive open circuit two
ports / Design procedures for filters with resistance termination / Limitations of passive RC two port
realizations.
Semiconductor Physics and Device
Module 1: Bonding Forces in Solids, Energy Bands theory in crystals (Qualitative Analysis), Metals,
Semiconductors, & Insulators, Fermi-Level, Intrinsic, Extrinsic Semiconductors, Concept of
Holes, Carrier Conc. and Mobility, diffusion and drift or carriers, continuity equation, Injected
minority carrier charge. Recombination & generation of charge carriers.
Module 2: Physical Description of p-n junction, current flow at a junction, I V characteristics, Quantitative analysis of p-n diode characteristics, equivalent circuit, temperature dependence,
Capacitance of p-n junction diode (transition & storage), junction Breakdown (Avalanche &
Zener), Step and linearly graded junction, diode switching characteristics, M S junction (Schottky barrier, Ohmic contact and rectifying contact), Hetero-junction.
Module 3: Junction transistor, Charge transport in BJT, base narrowing (Early effect), Avalanche
breakdown & Punch through, transistor switching, Coupled-Diode model, Ebers-Moll equations,
LF and HF model.
Module 4: MOS structure, Basic operation of Enhancement & Depletion mode MOSFET, MOS capacitance
(Operation with band diagram, threshold voltage & Characteristics), CCD and applications, LF
and HF model,.
Module 5: Optical absorption in semiconductors, photovoltaic effects, solar cells (p-n junction),
Photoconductors, Photodiode, PIN photodiode, Avalanche photodiode, Phototransistor, LED,
Semiconductor Laser (p-n junction)
Text Book:
1. Solid State Electronic Devices by Streetman & Banerjee
Reference Books:
1. Semiconductor Devices: Jasprit Singh
2. Integrated Electronics: Millman & Halkis
3. Semiconductor Physics and Devices: Donald Neaman
4. Semiconductor Devices: Kanan Kano
5. Semiconductor Optoelectronic Devices: Pallab Bhattacharaya
6. Semiconductor Physics: Device & Technology: S. M. Sze
7. Physics of Semiconductor Devices: J. P. Colinge & C. A. Colinge
Analog Electronics
FEEDBACK AMPLIFIER: General theory of feedback, Barkhausen criteria, stability of feedback
amplifier, different feedback topologies, effect of different parameters of an amplifier, frequency response
of 2 pole/3 pole feedback amplifiers, Bode plot, gain and phase margin, compensation, method of
analysis, Design examples.
MULTISTAGE AMPLIFIERS Frequency response of single stage R-C coupled amplifier, cascade
amplifier, cascaded BJT and FET amplifiers, frequency response of R-C coupled multistage amplifier.
TUNED AMLPIFIERS Bandwidth consideration of tuned amplifiers, Analysis of single and double tuned
amplifiers, Stagger tuning, Butter worth and Chebyshev response.
OSCILLATORS: DIFFERENT RC AND LC OSCILLATORS.
SWITCHING CIRCUITS: Astable Multivibrator, Monostable Multivibrator, Bistable Multivibrator.
OPERATIONAL AMPLIFIER - active load - current mirror - various stages of an operational amplifier -
simplified schematic circuit of op-amp 741 - typical op-amp parameters - slew rate - CMRR - open loop
gain - unity gain bandwidth - offset current & offset voltage.
LINEAR OP-AMP CIRCUITS - inverting and non-inverting configurations - analysis for closed loop
gain - input and output impedances - virtual short concept - current to voltage and voltage to current
converters - instrumentation amplifier - nonlinear op-amp circuits - log and antilog amplifiers - phase
shift and wein bridge oscillators - comparators - astable and monostable circuits.
FILTERS- Butterworth, Chebychev and Bessel approximations to ideal low pass filter characteristics -
frequency transformations to obtain HPF, BPF and BEF from normalized prototype.
IC 555 TIMER Pin diagram of IC 555 Internal Circuit of IC 555 Multivibrator circuits using IC 555.
PHASE LOCKED LOOP Block schematic and analysis of PLL Lock range and capture range
Typical applications of PLL (eg.565) Basic principles of operation of VCO (eg. 566) and timer (555)
and their applications Voltage regulator ICs Fixed and adjustable (723) regulators.
Reference Books
1. Op-AMPS and Lenear Integrated Circuits- Ramakant A. Gayakwad-Prentice Hall of India. 2. Sergio Franco, Design with Operational Amplifiers and Analog Integrated Circuits, Tata
McGraw Hill Book Company, 3rd
Edn., 2002.
3. Jacob Baker R., Li H.W. & Boyce D.E., CMOS- Circuit Design, Layout & Simulation, PHI, 2000.
4. VLSI Technology, 2nd edition, S M Sze. 5. Semiconductor Devices & Circuits - B.P. Singh 6. Electronics Devices and Circuits - Allen Mottershead 7. Integrated Electronics - Millman & Halkias
Signal & System
Signals: Introduction, Types of signals, Continuous-time and discrete time signals. Energy and
Power, Transformations of the independent variable, Exponential and sinusoidal signals, Unit
impulse and Unit sample signals, Continuous-time and Discrete time systems and Basic system
properties.
Linear time-invariant systems: Discrete and Continuous time systems, convolution sum,
convolution Integral, Properties, causal LTI systems described by difference equations,
singularity function.
Representation of periodic signal by Fourier: Continuous-time and discrete-time signals,
Properties
Representation of aperiodic signals by Fourier Transform: Continuous-time and discrete-
time signals, Properties, System characterized by linear constant coefficient differential
equation.
Review of Laplace Transform Sampling: representation of Continuous-time signals by its samples, sampling theorem, Impulse
train sampling, Sampling with zero order hold, Reconstruction of signal from its samples using
interpolation, Aliasing.
Discrete time processing of continuous time signals, Digital differentiator, half sample delay,
Sampling of Discrete-time signals, Decimation and interpolation.
Random signals: review of probability theory, Random variable: Continuous and Discrete,
Description of Continuous Random variable, Statistical averages. Description of Discrete
Random variable, Statistical averages
.Random processes: definition, properties and types.
Reference Books
(1) Signals and Systems, A. V. Oppenheim, A. S Willsky, and S. H. Nawab,
Prentice-Hall, Englewood Clieffs
(2) Probability, random variables, and stochastic Processes, A. Papoulis, McGraw-
Hill
(3) Signals and Systems, B. P. Lathi
(4) Signals and Systems, M. J. Roberts McGraw-Hill
4th
Semester
Detailed Syllabus BTech IV Semester (ECE)
Code 4th semester
UEC04C01 Analog Communication 3 1 0 4
UEC04C02 Control System 3 1 0 4
UEC04C03 Electromagnetic Theory, Transmission Line 3 0 0 4
UEC04C04 Digital Electronics 3 1 0 4
UEC04C05 Electrical and Electronic Measurement & Instrumentation 3 1 0 4
UEC04P01 Digital Electronics Lab 0 0 6 2
UEC04P02
Electrical and Electronic Measurement & Instrumentation
Lab 0 0 6 2
Total 15 4 12 24
Analog Communication
Introduction : Introduction to communication systems, signals and spectra, electromagnetic spectrum and its usage, communication channels and propagation characteristics. Review of Signal representation
using Fourier Series & Fourier Transform. Power Spectral density, random variables, Random processes.
Introduction to Noise: Thermal Noise, Shot noise, Partition noise, Flicker noise, Gaussian Noise, Noise in Bipolar Junction Transistors (BJTs), FET noise, Equivalent input noise, Signal to Noise Ratio
(SNR), Noise Temperature, Noise equivalent Bandwidth, Noise Figure. Experimental determination of
Noise Figure, Pulse Response and Digital Noise and its elimination.
Analog Modulation Techniques: Introduction, Theory of Amplitude Modulation; AM Power
Calculations, AM Modulation with a Complex wave, Theory of Frequency Modulation (FM); Spectra of
FM Signals, Narrow Band and Wide Band FM, Theory of Phase Modulation, Comparison of AM and
FM, Comparison of PM and FM, Noise and Frequency Modulation, Pre-emphasis and De-emphasis.
AM Transmission/AM Reception: Introduction, Generation of Amplitude Modulation, Basic Principles
of AM Generation; Square law Diode Modulation, Vander Bijl Modulation, Suppressed Carrier AM
Generation, Ring Modulator, Balanced Modulator. Tuned Radio Frequency (TRF) Receiver, Basic
Elements of AM Super-heterodyne receiver; RF Amplifiers Characteristics- Sensitivity, Selectivity ,
Image Frequency Rejection, Mixers Tracking and Alignment, Local Oscillator, IF Amplifier, AM
Detectors; Envelope or Diode Detector, AGC, AM Receiver using Transistors Communication Receiver.
SSB Transmission/SSB Reception: Advantages of SSB transmission, Generation of SSB; Independent
Side-Band Systems (ISB), Vestigial Side-Band Modulation (VSB).SSB Product Demodulator, Balanced
Modulator as SSB Demodulator, ISB/Suppressed Carrier Receiver.
FM Transmission/FM Reception: Generation of FM by Direct Methods. Indirect Generation of FM;
The Armstrong Method, FM Stereo Transmission.FM Receiver Direct Methods of Frequency
Demodulation; Slope Detector, Travis Detector , Foster Seely or Phase Discriminator, Indirect methods of
FM Demodulation; FM Detector using PLL and Stereo FM Multiplex Reception.
Pulse Modulation Transmission and Reception: Introduction, Pulse Amplitude Modulation (PAM),
PAM Modulator Circuit, Demodulation of PAM Signals, Pulse Time Modulation (PTM); Pulse Width
Modulation (PWM), Pulse Position Modulation (PPM), PPM Demodulator.
Books: 1. Lathi B P, Digital and Analog Communication Systems, Oxford University Press 2. George Kennedy, Electronic Communication System, McGraw- Hill. 3. Simon Haykin, Communication Systems, John Wiley and Sons
4. Roddy and Coolen, Electronic Communication, PHI .
Control System
Introduction: Control systems, Physical elements of a control system, effects of feedback.
Mathematical Model of Physical Systems: Introduction, Differential equation representation of
physical systems, Transfer function concepts, Block diagram algebra, Signal flow graphs, Masons Gain formula
State Space: Concepts of state, state variables and state model, State models of linear continuous-time
systems, Concept on Controllability and Observability, Illustrative examples.
Control System Components: DC servomotors, DC tacho-generators, AC servomotors, AC tacho-
generators, Stepper motors, Synchro error detectors, Areas of Application.
Time Response Analysis: Introduction, Standard test signals, Performance indices, Time response of
first order system, Time response of second order systems, steady state error and their minimisation, error
coefficients, P, PI and P-I-D type controllers.
Stability Analysis in Time Domain: The concept of stability, Assessment of stability from pole
positions, Necessary conditions for stability, Routh Stability Criterion, Relative stability analysis,
Illustrative examples.
Root Locus Technique : Introduction, The root locus concept, Root locus construction rules, Root
contours, Case studies.
Frequency Response Analysis: Introduction, Performance indices, Frequency response of second order
systems, Polar plots, Bode plots, All pass systems, Minimum-phase and Non-minimum-phase systems,
Illustrative examples
Stability Analysis in Frequency Domain: Introduction, A brief review of Principle of Argument,
Nyquist stability criterion, Assessment of relative stability Gain Margin and Phase Margin, Closed loop
frequency response, Illustrative examples.
Texts/References
1. Kuo B.C. Automatic Control System, PHI 2. Nagrath I J & Gopal M : Control Systems Engineering, New Age International Pub. 3. Ogata K : Modern Control Engg. PHI 4. Dorf R C & Bishop R.H.: Modern Control System ; Addison Wisley 5. Gopal: Modern Control System Theory, New Age International 6. Gopal: Digital Control Engineering, New Age International
Electromagnetic Theory, Transmission Line
Review of Vector Calculus: Orthogonal coordinate systems, Coordinate transformation,
Gradient of scalar fields, Divergence and Curl of vector fields.
Electrostatics: Coulombs law, electric field, flux and Gausss law, curl and divergence of electrostatic fields, electric potential, Poissons equation, Laplaces equation, solutions to electrostatic boundary problems, method of images, work and energy in electrostatics, induced
dipoles and polarization, field inside a dielectric, electric displacement, electric susceptibility,
permittivity and dielectric constant, boundary conditions, capacitors, surface charge and induced
charge on conductors.
Magnetostatics: Lorentz force, Biot-Savart law, magnetic flux density, divergence and curl of
flux density, Amperes law, magnetic vector potential, magnetization, torque and force on magnetic dipoles, magnetic field inside matter, magnetic field intensity, magnetic susceptibility
and permeability, magnetic materials, boundary conditions.
Electrodynamics: Electromagnetic induction, inductance, continuity equation, displacement
current, Maxwells equations, boundary conditions, Poyntings theorem, energy and momentum in electromagnetic field.
Electromagnetic Waves: EM waves in vacuum and in matter, monochromatic plane waves,
group velocity, wave polarization, Lorentz gauge, retarded potentials.
Refection and transmission at interfaces: Normal and Oblique incidence of uniform plane
electromagnetic waves at conducting boundary, dielectric boundary.
Transmission lines: Quasi-TEM analysis, characteristic impedance, standing wave ratio,
impedance matching techniques, Smith Chart
Essential Reading:
1. N. Ida, Engineering Electromagnetics, Springer,2004
2. E.C. Jordan and K.G. Balmain, Electromagnetic waves and Radiating systems, Prentice hall, 2004
Supplementary Reading:
1. M. N. O. Sadiku, Elements of Electromagnetics- Oxford University Press, 2006
2. W. H. Hayt, Engineering Electromagnetics, McGraw Hill, 2007
3. Electromagnetic waves and Radiating systems - E.C. Jordan and K.G. Balmain.
4. Introductory course in electromagnetic fields - P.V. Gupta.
5. Electromagnetics - Hayt
6. Fandamentals of Electromageatics - M.A. Wazed Miyah
7. Electromagnetic fields and waves - V.V. Sarvate
8. Electromagnetics - B.B. Laud
Digital Electronics
1. Introduction to Boolean Algebra and Logic Gates.
Signed binary number, Binary arithmetic, CodesBCD, Gray, Excess-3, Error detection &
Correcting code-Hamming code, Logic Gates, Universal gates, Boolean Algebra, Basic theorems
& properties of Boolean Algebra, De-Morgans theorem, Minterms & Maxterms, K-map
representation, Q-M Method, simplification and realization with logic gates.
2. Combinational Circuits
Code Converters, Adders (Half and Full adders, parallel binary adders, look ahead carry adder
generator, BCD Adder), Subtractor (Half and Full subtractor), Combined adder/subtractor block,
Magnitude comparator, decoders and Encoders, Priority Encoder, Multiplexer and Multiplexer-
tree, De-multiplexer, Parity generator/checkers.
3. Sequential Logic
Latches, Flip-Flops(SR, D, JK, T and Master Slave JK, EDGE Triggered),Conversion of Flip-
Flops, Glitches, Shift Register (SISO, SIPO, PIPO, PISO, Bidirectional), Counter (ripple and
synchronous, Ring and Johnson Counters).
4. Memory
Memory concepts, RAM, ROM, uv EPROM, EEROM, Flash memory, Optical memory.
5. Programmable Logic Devices
PAL, PLA, PROM, CPLD, FPGA and Programmable ASIC.
6. Finite State Machine (FSM)
Model of Finite State Machine---State diagram, Mealy and Moore models, Logic diagrams, State
table, State reduction, State assignment, Excitation table. Realization of memory elements (S-R,
J-K, T, Master-Slave), State diagram, state table, Excitation table, Synthesis of Synchronous
sequential circuits. Sequence detector, parity-bit generators). Minimization of completely
specified sequential machine, Simplification of incompletely specified machine.
7. Logic Families
Transistor as switch, Characteristics (Propagation delay, Speed-power product, Noise margin,
Fan-in, Fan-out), Standard logic families (RTL, TTL, ECL, CMOS), Gate Design using TTL/
CMOS.
8. D/A and A/D
Sample and Hold Circuits, Digital to Analog converter (Binary weighted resister network & R-2R
ladder network), Analog to Digital converter (Flash type, Counter type, Dual Slope & Successive
approximation type).
Text Books:-
1. Fundamentals of Digital Logic Anand Kumar - PHI 2. Digital Logic and Computer Design M. Morris Mano PHI
Reference Books:-
3. Digital Fundamentals --- Floyd, UBS 4. Digital Principles and Applications Malvino & Leach - TMH 5. Digital Fundamentals T. L. Floyd & Jain Pearson Education
Electrical and Electronic Measurement & Instrumentation
Basic Measurement Techniques: Construction and principle of operation of Moving coil,
Moving Iron, dynamometer, Wattmeter, Electro-static Instruments, Thermal and Rectifier type deflecting
instruments, extension of instrument ranges using shunts, multipliers and instrument transformers.
Errors in Measurement : Definition of accuracy, precision, Fidelity, speed of response,non-linearity,
techniques of linearization, classification of errors. Statistical analysis.
Measurements of Resistances: Measurement of low, medium and high resistances, Kelvins double
bridge, multimeters, megger, D.C. and A.C. potentiometers,
Localization of cable faults: Murray and Varley loop methods.
AC Bridges: measurement of inductances, capacitance and frequency by A.C. Bridges- Maxwell, Schering, Anderson, De-Sauty, Wien.
Measurement of power & Energy: Measurements of power in polyphase circuits, various wattmeter
connections. A.C. and D.C. energy meters.
Cathode Ray Oscilloscope: C.R.O. construction & principle of operation.
Sensors & Transducers: piezoelectric sensors, LVDT, Stain Gauges, Actuators A/D, D/A conversion
techniques; S/H and multiplexers; isolation amplifiers; Data Acquisition system.
Digital Instrumentation Block diagram of Instrumentation schemes, DVM, DMM, frequency counter
Frequency domain instruments : Wave analyzer, spectrum analyzer
Special Purpose Instruments: Signal generators, Q-meter
Text Books:
1. Golding E.W. & Wides F.C. : Electrical Measuring Instruments & Measurements ; Wheeler
2. Sawhney A K:A course in Electrical & Electronic Measurements & Instruments, Dhanpat Rai & Co.
3.Kalsi:Electronic Instrumentation
4.SK Singh :Industrial Instrumentation & Control , Tata McGraw Hill.New Delhi
5.H.S. Kalsi :Electronic Instrumentation, Tata Mc-Graw Hill
6.Heltrick A.D. & Cooper W.D. : Modern Electronic Instrumentation & Measuring Instruments;
Wheeler
7.Patranabis D: Sensors & Transducers, Wheeler 96
8. Bell, David : Electronic Instrumentation & Measurement, Reston Publishers
5th
Semester
Detailed Syllabus BTech V Semester (ECE)
Code 5th Semester
UEC05C01 Digital Communication 3 1 0 4
UEC05C02 Antenna and wave propagation 3 1 0 4
UEC05C03 Numerical Methods and Analysis 3 1 0 4
UEC05C04 Microprocessor and Microcontroller 3 1 0 3
UEC05C05 Data Structure and Programming 3 0 0 3
UEC05P01 Microprocessor and Microcontroller Lab 0 0 6 2
UEC04P02 Data Structure and Programming Lab 0 0 6 2
UEC04P03 Viva Voce- I 0 0 3 2
Total 15 3 15 24
Digital Communication
Sampling Theory: Sampling theorem, Signal reconstruction in time domain, Practical and Flat Top
Sampling, Sampling of Bandpass Signal.
Waveform Coding Techniques: Pulse Code Modulation , Linear quantizer, Quantization noise power
calculation, Signal to Quantization noise ratio, Non-uniform quantizer, A law & Mu- law, companding;
encoding and, Bandwidth of PCM,
Differential pulse code modulation, Delta modulation, Idling noise and slope overload, Adaptive delta
modulation, DPCM, Comparison of PCM and DM.
Digital Multiplexing: Fundamentals of time division multiplexing, electronic commutator, bit, byte
interleaving T1Carrier system, Synchronization and Signaling of T1, TDM, PCM hierarchy, North-
America CCITT standards, T1 to T4 PCM TDM system (DS1 to DS4 signals), Signal format of M12
Mux for AT & T (Bell) system, bit rate calculation for DS1 to DS4 signals.
Digital Base Band Transmission: Line Coding & its properties. NRZ & RZ types, signaling format for
unipolar, Polar, bipolar (AMI) & Manchester coding and their power spectra (No derivation), HDB and
B8ZS signaling, ISI, Nyquist criterion for zero ISI & raised cosine spectrum, Matched filter receiver,
Derivation of its impulse response and peak pulse signal to noise ratio, Correlation detector decision
threshold and error probability for binary unipolar (on-off) signaling.
Digital Modulation Techniques: Types of digital modulation, Wave forms for Amplitude, Frequency
and Phase Shift Keying, Method of generation and detection of coherent & non-coherent binary ASK,
FSK & PSK, Differential phase shift keying, Quadrature modulation techniques, M-ary FSK, Minimum
Shift Keying (MSK), Probability of error and comparison of various digital modulation techniques.
Coherent reception, Coherent reception of ASK, PSK and FSK, Non-Coherent reception of ASK, FSK,
PSK and QPSK, Calculation of error probability of BPSK and BFSK, Error probability for QPSK.
Elements of Information Theory: Information; Mutual information and channel capacity of a discrete
memoryless channel, Calculation of channel capacity of a discrete memoryless channel, of a BSC, of a
continuous AWGN Channel, Hartely- Shannon law, Bandwidth-S/N tradeoff.
Books:
1. Haykin Simon, Communication Systems, 4th Edition, Wiley publication. 2. Lathi B P, Digital and Analog Communication Systems, Oxford University Press 3. Tomasi, Electronic Communication Systems, 4thedition, Pearson Publications. 4. Proakis J J, Digital Communications, 2nd Edition, Mc Graw -Hill.
Antenna and wave propagation
Radiation fundamentals. Potential theory. Helmholtz integrals. Radiation from a current
element. Basic antenna parameters. Radiation field of an arbitrary current distribution. Small
loop antennas.
Receiving antenna. Reciprocity relations. Receiving cross section, and its relation to gain.
Reception of completely polarized waves. Linear antennas. Current distribution. Radiation field
of a thin dipole. Folded dipole. Feeding methods. Baluns.
Antenna arrays. Array factorization. Array parameters. Broad side and end fire arrays. Yagi-
Uda arrays Log-periodic arrays.
Aperture antennas. Fields as sources of radiation. Horn antennas. Babinets principle. Parabolic reflector antenna.Microstrip antennas.
Wave Propogation: Propogation in free space. Propogation around the earth, surface wave
propogation, structure of the ionosphere, propogation of plane waves in ionized medium,
Determination of critical frequency, MUF. Fading, tropospheric propogation, Super refraction
Essential Reading: 1. C Balanis, Antenna theory, analysis and design, 2nd. Edn., John Wiley & Sons,
Supplementary Reading: 1. E.C. Jordan & K.G. Balmain, Electromagnetic waves and Radiating Systems.
2. R. Chatterjee, Antenna Theory and Practice - New age Publisher, 2004
3. J. D. Kraus, Antenna- Tata McGraw Hii, 2006.
1. R.E.Collin, Antennas and Radio Wave Propagation, McGraw Hill,1985. 2. K.F.Lee, Principles of Antenna Theory, Wiley,1984.
3. J.R. James etal, Microstrip Antenna Theory and Design, IEE, 1981.
4. Frederick Emmons Terman, Electronic Radio Engineering (4/e), McGraw Hill
Numerical Methods and Analysis
Unit I: Introduction to finite differences, difference formulae, fundamental theorem of difference
calculus, the difference table, to express value of the function in terms of leading term and the leading
differences of a difference table, the operator E, properties of two operators E & D, relation between
operator E of finite differences and differential coefficient D of differential calculus, one or more missing
terms, factorial notation, to show that x(-n)= 1/[(x+n)], generalized factorial notations, methods of
representing any given polynomial in factorial notation.
Unit II: Introduction to interpolation, interpolation with equal intervals, different interpolation methods
(Newton-Gregory forward and backward difference formulae), interpolation with unequal intervals,
divided differences and table, Newtons divided difference formulae, central difference interpolation
formulae (Gauss, Stirling, Bessel formulae), piecewise and spline interpolation, (cubic splines) least
squares approximations.
Unit III: Numerical differentiation based on interpolation, numerical integration, a general quadrature
formula for equidistant ordinates, the trapezoidal rule, Simpsons 1/3rd and 3/8th rules, Weddles rule,
Method of undetermined coefficients, extrapolation method.
Unit IV: Numerical solution of ordinary differential equations of first order by Eulers and Runge
Kuttas method.
Unit V: Solution to Algebraic and transcendental equations by Regula-Falsi method, iteration method,
Newton-Raphson method, simultaneous linear Algebraic equations by Gauss-Jordon method, Crouts
method, factorization method, Gauss-Seidel iterative method, determination of eigen values.
Microprocessor and Microcontroller
Evolution of digital computer, evolution of microprocessor. Microprocessor architecture: 8-bit
(e.g.8085) and 16-bit (e.g. 8086/8088). Addressing modes of microprocessors, instruction set of
8-bit (8085) and 16-bit microprocessors (8086/8088). Instruction cycle, timing diagram.
Subroutine, assembly language and machine language programming. Types of memories and
their organizations (RAM, ROM, stack, secondary etc.). Interrupt, DMA, principle of data
transfer (synchronous and asynchronous). Serial data communication, RS-232 standard.
Peripheral interface: PPI, DMA controller, interrupt controller, programmable timer, CRT
controller, USART.
Microcontrollers like 8051, 80196 etc
Text Books/References:
1. Microprocessor architecture, programming and application
with the 8085- Gaonkar
2. Fundamentals of microprocessors and microcomputers- B. Ram
3. 8086/8088 family (Design, programming & inteface)- Uffenbeck
4. 8088 & 8086 microprocessors (Programming, interfacing, software,
hardware and application)- Triebel & Singh
Data Structure and Programming
Concepts of data Structures Information & Meaning, Abstract data Types.
Linear Data Structures Sequential Representations :
Arrays and Lists, Stacks, Queues and Dequeues and their Applications; Linked Representations:
Linear Linked List, Circular Linked List, Doubly Linked List and their Applications.
Nonlinear Data structures: Trees : Basic Terminologies; Binary trees: Properties, Traversals and
Threads, Expression.
Tree, Binary search tree: Operations, Height Balanced Binary trees; M-Way Search Tree, B-
Trees; Applications. Heaps & Priority Queues.
Graphs: Graph Terminologies, Representation of graphs, Graph Traversals, Application of
Graphs. Recursion Design of Recursive Algorithms, Tail Recursion, When not to use
recursion, Removal of Recursion.
Shorting Algorithms: Insertion sorts : Straight insertion sort, Binary insertion of sort, Shell sort;
Exchange
Sorts: Bubble sort, Quick sort, selection sorts: Straight Selection Sort, Heap Sort; Merge sort;
Distribution Sorts : Bucket Sort, Radix Sort.
Searching: Sequential Search, Ordered Sequential Search, Binary Search, Interpolation Search.
Hashing: Hashing Methods, Hash Function Implementations, Hash Tables, Scatter Tables,
Scatter tables using Open Addressing.
Programming Experiments based on: Arrays, Stacks, Queues, Linked lists, Trees, Recursion,
Sorting, searching and Hashing data structures.
Viva Voce- I
6th
Semester
Detailed Syllabus BTech VI Semester (ECE)
Code 6th semester
UEC06C01 Microwave Engineering & Radar 3 1 0 4
UEC06C02 Digital Signal Processing 3 1 0 4
UEC06C03 VLSI Engineering 3 1 0 4
UEC06C04 Advanced Microprocessor and Computer Architecture 3 0 0 3
UEC06B01 Engineering Economics and Accounts 3 0 0 3
UEC06P01 Digital Signal Processing Lab 0 0 6 2
UEC06P02 VLSI Engineering Lab 0 0 6 2
UEC06P03 Viva Voce-II 0 0 3 2
Total 15 3 15 24
Microwave Engineering & Radar
Modal analysis of rectangular and circular metallic waveguides TE and TM modes, guide wavelength, cut-off, mode excitation, re-entrant cavity, Microwave Resonators analysis, Q factor of resonators, Strip lines and microstrip lines analysis, filter implementation with transmission lines and strip lines
Passive microwave components S matrix formalism, directional coupler, waveguide tees, isolator, circulator, phase shifter, impedance matching single stub and double stub
Vacuum tube microwave devices Klystron - velocity modulation and bunching, Reflex klystron, traveling wave tube - slow wave structure and Brillouin diagram.
Semiconductor microwave devices tunnel diode, Gunn diode, IMPATT diode, TRAPATT diode, heterojunction bipolar transistors principle, characteristics, noise figure
Low noise microwave amplifiers and oscillators masers stimulated emission, noise figure, parametric amplifiers Manley Rowe relations, up, down and negative resistance parametric amplifier
Radar- Basic Radar, Radar Equation, Threshold Detection, Integration of Radar Pulses, system Losses, Effects of RCS Fluctuation, Internal and External Noise. MTI and Pulse Doppler Radars,
Range and Speed Ambiguities, Limitations to MTI performance. Tracking Radars: Sequential
Lobing, Conical Scan and Monopolse, ADT. Matcherd Filter Receiver, Detection Criteria,
Automatic Detection, Detectors & Integrators, Target Recognition: SAR & ISAR.
Essential Reading: 1. D M Pozar, Microwave Engineering, John Wiley & Sons, 2004
2. S Liao, Microwave Devices & circuits, Prentice halls, India, 2004
3. M.I. Skolnik - Introduction to Radar Systems, McGraw Hill, 2004
4. G. Stimson, Introduction to Airborne Radar, IEE Press, 2002
Supplementary Reading: 1. M L Sisodia, V. L. Gupta,; Microwaves: Introduction to Circuits, Devices and Antennas, New Age,
2001
2. R E Collin, Foundations of Microwave Engg. McGraw-Hill 2001
3. Francois Le Chevalier, Principles of Radar and Sonar Signal Processing, Artech House, 2002
Digital Signal Processing
Introduction: Limitations of analog signal processing, Advantages of digital signal processing and its
applications; Some elementary discrete time sequences and systems;
Basic elements of digital signal processing such as convolution, correlation and autocorrelation, Concepts
of stability, causality, linearity, and difference equations
Sampling of Continuous Time Signals: Sampling and aliasing problem, Reconstruction of a continuous
time signal from its samples; Discrete Time Processing of Continuous time signals and vice-versa.
Decimation & Interpolation; changing the sampling rate by integer and non-integer factors using discrete
time processing.
The Z Transform: Z-Transform, Region of convergence; Properties of the Z-transform; convolution
theorem; Parsevals relation; Unilateral Z-transform and its application to difference equations with non-zero initial condition.
Discrete Fourier Transform: DFT and its properties; Linear Periodic and Circular convolution; Linear
Filtering Methods based on DFT; Filtering of long data sequences; Fast Fourier Transform algorithm
using decimation in time and decimation frequency techniques; Linear filtering approaches to
computation of DFT.
Design of Digital Filters: Linear Phase FIR filters; Design methods for FIR filters, FIR filter design
using windows; IIR filter design by Impulse Invariance, Bilinear Transformation, Matched Z-
Transformation, Frequency Transformation in the Analog and Digital Domain, Filter structures for IIR
and FIR filters, direct form I and II, parallel and cascade forms, frequency sampling structure for FIR
filters
Finite Precision Effects: Fixed point and Floating point representations, Effects of coefficient
unitization,
Effect of round off noise in digital filters, Limit cycles.
Introduction to multirate DSP: Decimation and interpolation, polyphase decomposition, uniform DFT
filter banks, quadrature mirror filters and perfect reconstruction
Books Recommended : 1. Oppenheim A V & Sehafer R W, Discrete Time Signal Processing, Prentice Hall. 2. Proakis J G & Manolakis D G, Digital Signal Processing, Pearson Education. 3. Oppenheim A V, Willsky A S & Young I T, Signal & Systems, Prentice Hall. 4. Ifeachor and Jervis, Digital Signal Processing, Pearson Education India. 5. D.J. DeFatta, J.G.Lucas and W. S. Hodgkiss, Digital Signal Processing, J Wiley and
Sons,
6. Andrias Antonion, Digital Filters, Analysis, Design and Applications, Second Edition, Tata Mcgraw Hills.
VLSI Engineering
(1) Introdiction to VLSI design, Moores Law, VLSI Design flow, Design hierarchy, VLSI Desin
style: Full custom, Gate array, standard-cell, Macrocell based design, Field programmable
devices, design quality.
(2) Electrical charactersistics of MOSFET, Body effect, MOSFET scaling, Short-chennel effects.
(3) Unit process in VLSI: Wafer preparation, Oxidation, Diffusion, Ion implantaion, Deposition,
Metalization, Etching and Lithography.
(4) IC fabrication: nMOS fabrication, n-well and p-well process, Stick diagram. Layout and Layout
design rules.
(5) CMOS Digital Circuits: General CMOS logic structure, VTC of inverter, noise margin, Different
types of inverter (resistive load, enhancement and depletion nMOS load and CMOS), Switching
characteristice (propagation delay and parasitic capacitance estimation), switching power, latch-
up, sizing for large capacitive load, NAND, NOR and other complex CMOS logic circuits.
Dynamic CMOS logic circuits (Domino and NORA logic). Introducing sequential CMOS logic
circuits.
(6) CMOS analog circuits: Differnetial Amplifier Source coupled pair, CMRR, Basic CMOS op-
Amp design.
(7) Physical Design Automation: Objectives and goals of partitioning, floor planning and placement,
Global routing.
(8) Advanced topic: Low power VLSI Design and Testing.
Advanced Microprocessor and Computer Architecture
Introduction to advanced microprocessors (16 bit, 32 bit & 64 bit), Multi-user, Multitasking operating
system concept. Architecture of advanced microprocessors-80186, 80286, 80386, 80486. Memory
management system, Protected mode of operation, Introduction to Pentium microprocessor.
Evaluation of modern computer architecture, Basic architectural classification. Introduction to parallel
processing. Parallel computer structure. Principles of pipelining and vector processing. Pipeline
computers. SIMD array processors. Multiprocessor architecture.
Text Books/References:
1) Microprocessor & Interfacing- Hall
2) Intel Microprocessors- Brey
3) The Pentium Microprocessor- Antonakos
4) Computer Architecture & Parallel Processing- Hwang & Briggs
Engineering Economics and Accounts
Introduction Engineering economy and its important, Want activity satisfaction of wants. Resources
planning and distribution in economic system Laissez Faire and socialism. Factors of production and
concept of optimum. Laws of return. Demand - Elasticity of demand, demand estimation, market
research, supply and industrial costs. Money Value of money, quantity theory; inflation and deflection.
Neural network and its applications.
Banking - role in commercial banks credit and its importance in industrial financing, sources of finance
Reserve bank of India and its functions. Business management and organization, Proprietorship,
Partnership and joint stock company their formation, finance and management. Elements of taxation,
insurance, Business combinations. Basic Principals of management.
Industrial record keeping : Double entry system Journal, lager, trail balance, cash book, preparation of
final accounts, trading and profit and lose account and balance sheet. Industrial costs and their
classifications Material cost control, labor cost control and overhead cost control. Depreciation and
replacement studies; Financial control ratio analysis and their interpretation for industrial control.
Budgetary control.
Viva Voce-II
7th
Semester
Detailed Syllabus BTech VII Semester (ECE)
Code 7th Semester
UEC07C01 Industrial Electronics 3 0 0 3
UEC07B01 Industrial Management 3 0 0 3
UEC07C02 Communication Network and Switching 3 0 0 3
UEC07C03 Elective I- Open Elective 3 0 0 3
UEC07C04 Elective II- Departmental Elective 3 0 0 3
UEC07P01 Project Preliminary 0 0 3 3
UEC07P01 Industrial Electronics Lab 0 0 6 2
UEC07P02 Communication Network and Switching Lab 0 0 6 2
UEC07P03 Viva Voce-III 0 0 3 2
Total 15 0 18 24
Industrial Electronics
Thyristors : Thyristor family, Two transistor analogy of SCR, construction, Turn on and Turn Off
characteristics, specifications and parameters, Turn On methods, S.C.R. firing and synchronizing circuits,
U.J.T. related firing circuits, SCR Protection, Commutation circuits.
Phase Controlled Rectifier : Principle of Phase Control, Single-Phase Mid-Point Converter, Bridge
Converter, Full Converter, Semiconverter, Dual converter.
DC to DC converters : Basic principle of chopper circuit, various chopper circuits and their working, set
up chopper, Line Regulators.
Inverters : Pulse width modulated Inverters, Single Phase Series and Parallel inverter, Force
Commutated Thyristor Inverters, Current Source Inverter, Three Phase Bridge Inverter.
AC Voltage Controllers : Types, Single Phase Voltage Controller with RL Load, Sequence Control of
AC Voltage Controllers, Cycloconverters.
Industrial application of ultrasonic and its basic principle, optical devices, S.M.P.S., U.P.S., Advanced
control of power electronic circuits using microprocessors, isolation and amplifier circuits,
synchronization circuits.
Text/Reference Books:
1. Ned Mohon, Udeland, Robbins, Power Electronics, John Wiley & Sons, Media Enhanced rd Edition,
2003.
2. Rashid, Power Electronics, Circuits Devices and Applications, Pearson
Education, 3rd edition, 2004.
3. G.K.Dubey, Thyristorised Power Controllers, Wiley Eastern Ltd, 1993.
4. Dewan & Straughen, Power Semiconductor Circuits, John Wiley & Sons, 1975.
5. Cyril W Lander, Power Electronics, Mc Graw Hill, 3 edition, 1993.
6. Publishing Company Limited, New Delhi 2006.
Industrial Management
Introduction to management, evolution of scientific management, modern management. Principles.
Elements of management;. Planning, organizing, staffing, directing, coordinating, reporting, budgeting.
Core concepts of marketing. need, want, demand, product, value, satisfaction, marketing mix- product,
price, place, promotion.
Financial management, objectives, scope, techniques of investment analysis, pay back period, accounting
rate of return, working capital, cost of capital. Sources of financing.
Technology management. Product design . Types of production system. Plant location-factors to be
considered. Plant layout. Types of layout. Inventory management.
Significance of HRM. HR planning job evaluation. Recruitment and selection. Placement and induction.
Training. Performance appraisal. Compensation. Industrial relations.
Microeconomics. Demand and supply. Forecasting techniques. Cost and revenues.Competitive nature of
firms.
Keynesian economics. Aggregate demand and supply. Employment determination. National income.
Trade cycle. Inflation. Index numbers.
Capital budgeting. Cash flow analysis. Balance sheet. Risk analysis and decision making.
Impact of liberalization, privatization and globalization. Locating the firm in a global economy.
Fiscal policy. Taxation-principles. Exchange rate determination. Monetary policy. Functions of banks.
Credit creation by commercial banks.
References:-
1. L.M.Prasad, Priciples and Practice of Management, S.Chand & Sons.
2. P.Kotler, Marketing Management (12/e), Pearson, 2005
3. P.Chandra, Financial Management Theory and Practice (3/e), TMH, 2004
4. K.Ashwathappa, Human Resources and Personnel Management (3/e),TMH, 2005
5. E.S.Buffa & R.K.Sarin, Modern Production/Operation Management (8/e), Wiley, 1994.
6. M.Adhikari, Business Economics, Excel Books, 2004
7. S.K.Misra &V.K.Puri, Economic Environment of Business, HPH, 2003
Communication Network and Switching
Fundamentals of Data Transmission, Asynchronous and synchronous transmission, Data Communication
Protocols.
Data Communication Networks: Topology design issues, OSI-reference model, open system standards,
service primitives, Other architectures, Connection oriented and connection less services.
Circuit switching, Packet switching, Message switching,
Hybrid switching and ATM switching. Interface and standards- EIA RS232C, 442, 449 and others,
Modem specifications.
Data link layer, LLC & MAC level protocols and design, issues IEEE 802 LAN Standards, framing,
Error control, Flow control, HDLC, ALOHA and performance issues. Frame relay networks and
performance parameters. LLC protocols,
Network layer design issues, Routing algorithms, Congestion control algorithm, Subnet concept, Virtual
circuit and Data gram Subnet, Flow control, Internetworking, Bridges, Routers, Gateways and different
level switches.
Transport level Fundamentals of TCP/IP, addressing schemes ISDN systems, B-ISDN and ATM
network fundamentals, Introduction of wireless network architectures, WATM, Network design issues,
Fast Ethernet architecture and protocols.
Reference Books
1. Computer Network - Tanenbaum 2. Telecommunication networks- M. Schwartz 3. Data network - Basket and Gallager 4. Data Communication, Computer network & open systems - F. Haball 5. Computer Networks : An Engineering approach - S. Keshav
6. Data communications and networking, Behrouz A. Forouzan
Elective I- Open Elective
Elective II- Departmental Elective
Project Preliminary
Viva Voce-III
8th
Semester
Detailed Syllabus BTech VIII Semester (ECE)
Code 8th semester
UEC08C01 Introduction to Fibre Optic Communication 3 0 0 3
UEC08C02 Wireless & Mobile Communication 3 0 0 3
UEC08C03 Elective III- Open Elective 3 0 0 3
UEC08C04 Elective IV-Departmental Elective 3 0 0 3
UEC08P01 Introduction to Fibre Optic Communication Lab 0 0 6 2
UEC08P2 Wireless & Mobile Communication Lab 0 0 6 2
UEC08P03 Grand Viva 0 0 3 3
UEC08P04 Project Viva 0 0 6 5
Total 15 0 21 24
Introduction to Fibre Optic Communication
Introduction: introduction to optoelectronics material, Characteristics of optical transmission media,
optical fibres- preparation and transmission characteristics, loss and dispersion mechanisms;
Optical sources: principles of operation, modulation characteristics and driver circuits, LED, laser
diodes, light source linearity, modal, and partition and reflection noise;
Power Launching and Coupling: Source to fibre power launching, lensing schemes for coupling
improvement, fibre to fibre joints, couplers, multiplexers and splices;
Photo detectors: principles of operation, circuits and performance, preamplifiers and post-detection
amplifiers;
Optical Fiber systems: intensity modulation/direct detection system, link budget using direct detection,
coherent system, wavelength converters, coherent and WDM systems, Photonic switching.
Essential Reading: 1. G. Keiser, Optical Fibre Communications, McGraw Hill, 2008.
2. John M. Senior, Optical Fiber Communications: Principles and Practice, PHI, 2008.
Supplementary Reading: 1. Jones, William B. Jones, Introduction to Optical Fiber Communications Systems, Oxford University
Press (1995)
2. A. J. Rogers, Understanding Optical Fiber Communications, Artech House (2001)
3. J. C. Palais, Fiber optic communication, 5th edition, Prentice Hall, 2004
Wireless & Mobile Communication
Radio communication principles. Radio wave propagation.- HF, VHF,UHF and microwave propagation.
Multipath scattering and signal fading; Modulators and Demodulators, Mixers, Carrier synchronization.
Geostationary communication satellities. Transponders, satellite and earth station transmitters and
receivers, Link budget calculations, Multiple Access techniques-FDMA, TDMA, CDMA, SPADE,
VSATs. Non geostationary satellites for communications- LEO,MEO.
Mobile Communications: Principles, systems, standards and diversity systems. Cellular mobile
communication concepts, principles systems, standards and diversity systems. Multiple access and
coding in wireless communication. Various standards. Mobile satellite communications, Personal
communication series. ICs for wireless communication. Wireless computing and data
communications.
Text Books/References:
1) Wireless digital Communication-K. Feher
2) Mobile Communication Engineering- W.C.Y.Lee
3) Cellular Radio- Asha Mehrota
Elective III- Open Elective
Elective IV-Departmental Elective
Grand Viva
Project Viva