Physics-I Credit: 4 (L/ T/ P)

Description:

Classical Mechanics: Co-ordinate systems, vectors and kinematics, Newtonian Mechanics, momentum, work and energy, some mathematical aspects of force and energy, angular momentum, torque, rigid body motion, non inertial systems and fictitious forces, central force motion, harmonic oscillator, special theory of relativity.

Thermodynamics:Concept and definition, properties of pure substance, tables of thermodynamics properties, equation of state, Zeroth law of thermodynamics and ideal gas temperature scale, first law of thermodynamics and its consequences, control mass analysis, control volume analysis and steady state flow processes, second law of thermodynamics, statements of the second law, reversible and irreversible processes, heat engine, heat pump, carnot cycle, thermodynamic temperature scale, Clausius inequality, entropy, thermodynamic relations and their applications.

Suggested Reading

An Introduction to Mechanics by Kleppner

An Introduction to Thermodynamics by Y.V.C.Rao

Physics-I Lab Credit: 2 (P)

Description:

.Not Available

Suggested Reading

Not Available

Physics-II Credit: 4 (L/ T)

Description:

Electrodynamics: Electrostatic field, Gauss’s Law and its application, Electric Potential, work and energy in Electrostatics, conductors, electrostatic fields in matter, magnetostatics, magnetic fields in matter, electromotive force, Faraday’s Law, Maxwell’s equations, Electromagnetic waves

Quantum Physics Basic Quantum Physics and basic Physics of semiconductors

Suggested Reading

Concept of Modern Physics by A Beiser

Semiconductor Physics and Devices by Neamen

Introduction to Electrodynamics by Griffiths

Mathematics-I Credit: 4 (L/ T)

Description:

Real numbers; Sequences; Series; Power Series, Limit, Continuity; Differentiability, Mean Value Theorems and applications; Linear Approximation, Newton and Picard method; Taylor's theorem (one variable), Approximation by polynomials Critical points, Convexity, Curve Tracing; Riemann Integral; Fundamental Theorems of integral Calculus, Improper Integrals; Trapezoidal and Simpson's rule; Error bounds; Space Coordinates, lines and planes, Polar Coordinates, Graphs of Polar equations, Cylinders, Quadric Surfaces; Volume, Area, Length, Continuity, Differentiability of vector functions, Arc Length, Curvature, Torsion, Serret-Frenet formulas, Functions of Two or more Variables, Partial Derivatives. Statement only, of Taylor's theorem and criteria for maxima/minima/saddle points; Double Tripple Integrals, Jacobians; Surfaces, integrals, Vector Calculus, Green, Gauss , Stokes Theorem.

Suggested Reading

Integral Calculus by Thomas Finney

Mathematics-II Credit: 4 (L/ T)

Description:

Introduction & Motivation to Differential Equations., First Order ODE, y'=f(x,y) geometrical interpretation of simultaneos, Equations. reducible to separable form, Exact Equations., integrating factor Linear Equations., Orthogonal Trajectories, Picard's Thm. for IVP(without proof) & Picard's iteration method, Euler's Method, Elementary types of equations. F(x,y,y')=0:not solved for derivative; Second Order Linear differential equations: fundamental system of solutions. and general solution. of homogeneous equation, Use of known solution. to find another, Existence and uniqueness of solution. of IVP, Wronskian and general solution of nonhomogeneous equations.

Solution of simulation ordinary differential equations using Matrix method(Eigen values and Eigen vectors, Inverse of a matrix). Non-Linear First order simultaneous differential Equations, Higher order Differential Equations. Power Series Method - application to Legendre Equation., Legendre Polynomials, Frobenius Method, Bessel equation. Prop of Bessel functions, Sturm Liouville BVP, Orthogonal functions, Sturm comparision Thm., Laplace transform, Fourier Series and Integrals, Introduction to PDE, basic concepts, Linear and quasi-Linear first order PDE, 2nd order semi-linear PDE(Canonical form), D'Alemberts formula and Duhamel's principle for one dimensional wave equation., Laplace and Poisson's equation., maximum principle with application, Fourier Method for IBV problem for wave and heat equation rectangular region, Fourier Series method for laplace equation in 3 dimensions.

Suggested Reading

Advanced Engineering Mathematics by Kreizig

Mathematics-III Credit: 4 (L/ T)

Description:

Complex Numbers, Arithmetic of Complex numbers, Absolute Value, Conjugates, Polar form of complex numbers, Amplitude, Roots of Unity, Complex Functions; Introduction to some elementary complex functions ( polynomials, trigonometric, exponential, logarithmic, hyperbolic); Bilinear Mappings; Analytic Functions; Cauchy-Riemann Equations; Contour Integration; Cauchy’s Integral Theorem; Cauchy’s Integral Formula; Derivatives of an Analytic Function; Morera’s Theorem, Liouville’s Theorem; Residues and Poles; Taylor’s Theorem and Series; Laurent’s Series; Cauchy’s Residue Theorem; Evaluation of Real Integrals. Elements of Graph Theory; Pigeon Hole Principle.

Suggested Reading

Erwin Kreygsigz: Advanced Engineering Mathematics’

Narsingh Deo.: Graph Theory

Discrete Mathematical Structures Credit: 4 (L/ T)

Description:

Basic Counting Problems; Some Important Combinatorial Numbers; Divide and Conquer technique; Double Counting; Counting using one-one matching; Inclusion-Exclusion Principle; Generating functions and Recurrence relations; Pigeon Hole Principle; Elements of Graph Theory; Elements of Group Theory (its application to primality testing); Introduction to Polya Theory; Propositional Logic; Proof Techniques.

Suggested Reading

V Krishnamurthy: Combinatorics

Daniel I A Cohen: Combinatorial Theory

Bernard Kolman, Robert C Busby, Sharon Cutler Ross, Nadeem-ur-Rehman: Discrete Mathematical Structures

K D Joshi: Foundations of Discrete Mathematics

Thomas Koshy: Discrete Mathematics with Applications

Probability Theory and Stochastic Processes Credit: 4 (L/ T)

Description:

Sample Space; Events; Probability Function; Independent Events; Conditional Probability; Bayes’ Theorem; Random Variables; Distribution/density/mass functions of random variables, Functions of Random Variables; Expected Value/Variance of a random variable; Moments of a random variable; Moment Generating Function; Conditional Expectation; Joint distribution function of several random variables, Covariance Matrix and its properties; Generation of Random Numbers; Introduction to Random Processes; Mean/Autocorrelation/Auto Covariance of random processes; Poisson Process; Telegraph Signal; White Noise; Gaussian Processes; Stationary Processes (SSS and WSS); Random Walks; Brownian Motion; Linear Transforms of Random Processes; Use of Probability Theory in the Design and Analysis of Randomised Algorithms.

Suggested Reading

Sheldon M Ross: Probability Models

John Haigh: Probability Models

Peyton Z Peebles: Probability, Random Variables, and Random Signal Principles

Henry Stark & John W Woods: Probability and Random Processes

Sheldon M Ross: Probability Models for Computer Science

M Mitzenmacher & Eli Upfal: Probability and Computing.

Combinatorial Optimization Credit: 4 (L/ T)

Description:

Extremal Principle, Review of some topics (Linear Programming, shortest paths, maximum flows, minimum cost network optimization); Minimum Spanning Trees, Greedy Algorithms and Matroids, Construction of Matroids (Graphic, Partition, Matric, non-matric, Matching); Matching algorithms, Intersection of Matroids, Traveling Salesman Problem (as an intersection of three matroids), Chinese Postman Problems, Approximation Algorithms for some NP-Complete problems.

Suggested Reading

Christos H Papadimitriou, and, Kenneth Steiglitz: Combinatorial Optimization: Algorithms and Complexity

E L Lawler: Combinatorial Optimization

Discrete Mathematics and Graph Theory Credit: 4 (L/ T)

Description:

Basic introduction to discrete mathematics.

Introduction to graphs and trees.

Tree traversal and different graph algorithms.

Suggested Reading

Not Available

Introduction to Computer programming Credit: 5 (L/ T/P)

Description:

Basic C language programming

Introduction to pointers

File handling

Suggested Reading

Let us C by Yashwant Kanetkar

Computer Organization Credit: 4 (L/ T/P)

Description:

Structured computer organizaton

Suggested Reading

Tenenbaum

Data Structures and Algorithms Credit: 4 (L/ T/P)

Description:

Time and Space complexity of algorithms, Sorting Techniques, Tree traversal,

Graph algorithms

Suggested Reading

Introduction to Algorithms-Thomas H.Cormen,Leiserson,Rivest,Stein

Database Management Credit: 4 (L/ T/P)

Description:

Introduction, E/R Model, Relational Data Model and Relational Algebra, SQL, Schema Refinements and Normal forms, Transaction processing, Concurrency Control and Crash recovery, Data Storage and Indexes, Query Evaluation,

Suggested Reading

Database Management Systems by Raghu Ramakrishnan and Johannes Gehrke

Database System Concepts : A. Silberschatz, Henry F. Korth and S. Sudarshan, McGraw Hill (Fifth Edition)

Fundamentals of Databse Systems : Elmsari and Navathe

Digital Systems Credit: 4 (L/ T/P)

Description:

Introduction to digital System, types of digital system, Specification of combinational system, Technology for Combinational system: CMOS, Transmission gate, physical characteristic, Description and analysis of combinational system, design of gate network: two level and multi level gate network design, Programmable combinational module: PLA, PAL, standard combinatorial module: decoder, encoder, Multiplexer, De-multiplexer, shifter. Design digital system by standard combinatorial module. Arithmetic combinational module: Adder, network of adder modules, representation of signed integer and basic operation, ALU module, comparator module, multiplier, design digital system by standard arithmetic module. Specification of sequential system, Synchronous sequential system, finite memory sequential system, controller, minimization of the number of states, binary specification of sequential system, Sequential network: timing characteristics, high level and binary level implementation, analysis, design using d flip-flop, other flip-flop (SR, JK, T): design, analysis of network. Standard sequential module: Registers, Shift registers, Counters, Multi- module system, Programmable module: PSA, ROM, network of programmable module, CPLD, FPGA. Register Transfer Level (RTL), Data and control subsystem

Suggested Reading

Introduction to Digital Systems by Ercegovac, Lang and Moreno, Wiley, 2000

Digital Design by Mano, Ciletti, PEARSON, 4th ed

Computer Networks Credit: 4 (L/ T/P)

Description:

General: Structure of networks and the internet, circuit, packet and message switching, routing, physical media, types of delay, internet protocol stack, internet backbone, NAPs (Network Access Points) and ISPs

Application Layer: Structure of networking applications, Web and Web caching, FTP (File Transfer Protocol), Electronic mail, DNS (Domain Name Service), socket programming

Transport layer: Transport layer principles, multiplexing and demultiplexing, UDP (User Datagram Protocol), principles of reliable data transport, TCP (Transmission Control Protocol), flow control, principles of congestion control, TCP congestion control Network Layer: Network layer services, datagram and virtual circuits, routing principles, link state routing algorithms, distance vector routing algorithms, hierarchical routing, Internet Protocol (IP), IP addressing, IP transport, fragmentation and assembly, ICMP (Internet Control Message Protocol), routing on the internet, RIP (Routing Information Protocol), OSPF (Open Shortest Path First), router internals, IPv6

Link Layer: Link layer services, error detection and correction, multiple access protocols, LAN addressing and ARP (Address Resolution Protocol), Ethernet, CSMA/CD multiple access protocol, Hubs, Bridges, and Switches, Wireless LANs, PPP (Point to Point Protocol), Wide area protocols

Suggested Reading

Computer Networking: A Top-Down Approach Featuring the Internet , Third Edition

Jim Kurose and Keith Ross, Pearson Education

Computer Networks, Andrew S. Tanenbaum, Prentice Hall, 3 rd edition, 1996.

Digital Circuits and Systems Credit: 4 (L/ T)

Description:

Introduction to digital design, Number systems and codes, Boolean algebra and minimization techniques, Digital CMOS logic, Combinational circuits & systems, Sequential circuits & systems, Finite state machines

Suggested Reading

Digital Design, Principles & Practices, by J.F Wakerly, Pearson Education.

Digital Fundamentals (Eighth Edition), Thomas L. Floyd and R.P. Jain, Pearson Education.

CMOS digital circuits, Analysis and Design, by Sung-Mo Kang and Yusuf Leblebici, Tata Mc Graw Hill.

Digital Circuits and Design (Second Edition), by S. Salivahanan & S. Arivazhagan, Vikas Publication House Pvt. Ltd.

Digital Logic and State Machine Design, by Comer. David J., Oxford University Press, Imported Edition

Digital Circuits and Systems Lab Credit: 2 (P)

Description:

Not Available

Suggested Reading

Not Available

Microprocessor and Interfaces Credit: 4 (T/C)

Description:

Introduction:

Microcomputer and microprocessor, Evolution of microprocessors, types of buses.

Architecture of 8085 microprocessor:

Internal architecture of Intel’s 8085 Microprocessor and its functional blocks, types of registers and their functions, IC pin outs and signals, address, data and control buses, addressing, Opcode Fetch and execution procedure.

Addressing Modes:

Register addressing mode, direct addressing mode, Indirect addressing mode, Implicit addressing mode.

Instruction Set of 8085 and its assembly Language programming

Data Transfer Instructions

Arithmetic and Logical Instructions

Branching Instructions

Stack Instructions

Timing diagrams:

Clock signals, instruction cycles, machine cycles, and timing states, instruction timing diagrams.

Interrupts:

Interrupts, Interrupt vector table, Types of interrupts (Software and Hardware).

Interfacing of Memory and I/O devices:

Importance of interfacing, memory interfacing, I/O interfacing.

Programmable Interfaces:

8255 PPI, 8253 PIT, 8259 PIC, 8279 KDI.

Suggested Reading

Digital Design, Principles & Practices, by J.F Wakerly, Pearson Education.

Digital Fundamentals (Eighth Edition), Thomas L. Floyd and R.P. Jain, Pearson Education.

CMOS digital circuits, Analysis and Design, by Sung-Mo Kang and Yusuf Leblebici, Tata Mc Graw Hill.

Digital Circuits and Design (Second Edition), by S. Salivahanan & S. Arivazhagan, Vikas Publication House Pvt. Ltd.

Digital Logic and State Machine Design, by Comer. David J., Oxford University Press, Imported Edition

Microprocessor, Architecture, Programming and Application with 8085-Gaonkar, John Wiley Eastern, Ltd., Publication

Microprocessors and interfacing by Douglas V Hall, Tata Mc-Graw Hill publication.

Fundamentals of microprocessors and microcomputers by B. Ram: Dhanpat Rai publications, New Delhi.

Operating Systems Credit: 4 (T/C/P)

Description:

Introduction, Principles of Operating System design, Study of some Operating Systems.

Suggested Reading

Not Available

Object Oriented Programming Credit: 4 (T/C/P)

Description:

Object oriented programming concepts, Java/C++.

Suggested Reading

Not Available

Design and Analysis of Algorithms Credit: 4 (T/C/P)

Description:

Efficient algorithm designing techniques, Data decomposition techniques, Analysis of an algorithm based on time and space complexity

Suggested Reading

Not Available

Computer Graphics Credit: 4 (T/C/P)

Description:

Computer graphics designing, Learning different softwares to create graphics.

Suggested Reading

Not Available

Software Engineering Credit: 4 (T/C/P)

Description:

Learning different tools and softwares used in engineering, Software design

Suggested Reading

Not Available

Computer Architecture Credit: 4 (T/C)

Description:

Study of inner architecture of Computer, Study of different processors

Suggested Reading

Not Available

Basic Electrical and Electronic Science Credit: 4 (T/C)

Description:

Part A

Simple networks containing constant voltage, current sources and resistors,Application of KCL and KVL, Superposition Theorem, Thevenin’s and Norton’s Theorems, Networks with Switches, Capacitors and Inductors, First and second order ordinary differential equation, Laplace Transform, Sinusoidal Steady State, Simple RLC network Impedance, Admittance, Two port networks, Measurement of six set of parameters [z], [y], [h] and so on, Simple Diode circuits.

Part B

Transfer Functions and Bode Plot, Operational Amplifier, Concept of simultaneous open circuit and short circuit at input (virtual ground), Inverting and Non-Inverting, Difference Amplifier, Summer Circuit, Frequency Response, Simple Filters, Function generators, other simple applications of op-amp

Part C

Boolean algebra and simple gates, Combinational Circuits, Flip-Flop Applications, Counters, Registers

Suggested Reading

Network Analysis, by Van Valkenberg, Prentice Hall of India.

Op-Amps and Linear Integrated by Ramakant A Gayakwad, 4th Edition, Prentice Hall of India.

Digital Fundamentals by Thomas L Floyd and R P Jain, 8th Edition, Pearson Education.

Basic Electrical and Electronic Science Lab Credit: 2 (P)

Description:

Not Available

Suggested Reading

Not Available

Semiconductor devices and circuits Credit: 4 (T/C)

Description:

Circuit Design using Discrete Components: (Lecture-14) ,

BJT: (Lecture-10) Bipolar Junction Transistor, Saturation, Cut-off, Normal Active Mode, reverse Active Mode Operation, Biasing schemes, differential pairs, CE, CB, CC and differential amplifier. Simple optimization of voltage, current and power gain and input and output impedance.

Characteristics of MOSFETS: (Lecture-4) Simple analog and digital circuits, using MOSFETS.

Switching circuits: (Lecture-8) Comparators, Schmitt Inverters, Manostable and Astable circuits using discrete or op-amp or 555 timer circuits.

Waveform shaping & generation: (Lecture-6) Various kinds of oscillations, Comparison of Astable circuits and oscillators. Diode shaping of waveform – clipping and clamping.

Some common Sensors and Instruments: (Lecture-12) Thermisters, Thermocaptes, Instrumentation amplifiers, bridges, phase sensitive circuits, VCO and so on.

Suggested Reading

Microelectronic circuits by Sedra & Smith

Semiconductor devices and circuits Lab Credit: 2 (P)

Description:

Not Available

Suggested Reading

Not Available

Material Science Credit: 4 (T/C)

Description:

Basic properties of Materials, Material characteristics, Selection of materials for applications

Suggested Reading

Material Science and Engineering by Raghavan

Analog Electronics Credit: 4 (T/C)

Description:

Characteristics and biasing of BJT and MOSFET, Small signal (incremental) equivalent circuits, CE, CB and CC amplifiers, Difference Amplifier Design, Oscillators and Filters: Bode plots, Clipping, Clamping and other Non-Linear Op-Amp applications, Power supplies, Sample and Hold: Principles and Circuit, DAC: Principles and Circuits, ADC: Principles and Circuits, Sensors: Various Applications, Instrumentation: A Case Study

Suggested Reading

Microelectronic circuits, by Sedra and Smith, Oxford University Press.

Electronic Devices And Circuits by Millman and Halkias, Tata Mcgraw Hill.

Analog Electronics Lab Credit: 2 (P)

Description:

Not Available

Suggested Reading

Not Available

Electrical Machines, Instrumentation and Power Systems Credit: 4 (T/C)

Description:

Introduction to Electrical Machines, Energy and power analysis of machines, Transmission of electricity, Transformer, Motor, Generation of Electricity

Suggested Reading

Instrumentation & Power systems by P.C.Sen

Signals and Systems Credit: 4 (T/C)

Description:

Introduction to signals and systems, Time-Domain Representations for Linear Time-Invariant Systems, Fourier Representations for Signals and Linear Time-Invariant Systems, Applications of Fourier Representations and Mixed Signal Classes, Representation of Signals Using Continuous-Time Complex Exponentials: The Laplace Transform , Representation of Signals Using Discrete-Time Complex Exponentials: The z-Transform, Application to Filters and Equalizers

Suggested Reading

“Signals and Systems”, Simon Haykin, Barry Van Veen, and Publisher: John Wiley & Sons

“Linear Systems and Signals”, Oxford Series in Electrical and Computer Engineering

Analog Communications Credit: 4 (T/C)

Description:

Baseband signal, Spectrum of a signal, Spectrum of Carrier, Modulation and Demodulation

Suggested Reading

Modern Digital And Analog Communication System by B.P.Lathi

Analog Communications Lab Credit: 2 (P)

Description:

Not available

Suggested Reading

Not Available

Digital Communication Credit: 4 (T/C)

Description:

Introduction

Digital signal description

Types of digital data , internet data, multi-media data, characteristics of data, spectra,

bandwidth occupancy; signal formats: NRZ/RZ/AMI/mBnB; bipolar, unipolar, polar signals and their spectra, spectra of line-coded signals

Digitization of analog signals

Sampling theorem, practical aspects of sampling, band-pass sampling, pulse-code modulation (PCM), quantization noise, uniform/non-uniform quantizer, A-law/m-Law companders, signal-to-quantization noise ratio (SQNR) , differential-PCM, delta modulation (DM), adaptive DM, CVSD, LPC, practical ADC/DAC ICs.

Digital base-band communication

System model, AWGN channel, SNR, BER evaluation for unipolar, polar, bipolar signaling, inter-symbol interference (ISI), partial-response signaling, Nyquist pulse shaping, equalization schemes:fixed, adaptive, decision directed; matched filter, time-division multiplexing, eye-diagram, Q-penalty.

Digital modulation techniques

Band-pass signal, band-pass noise, band-pass channel; signal constellation of modulated signals:ASK/FSK/PSK/DPSK/MSK/GMSK/p/4-QPSK/OFDM, modulators, coherent and incoherent demodulators; BER evaluation, bandwidth efficiency , comparison among modulation schemes.

Carrier and clock synchronization

Phase-locked loop, linearized model, squaring loop, costas loop, decision-directed carrier synchronization , data-transition tracking loop (DTTL), early-late gate bit synchronizer, clock jitter, BER in the presence of clock jitter, word synchronization

Error control coding

Error detection and correction, parity-check codes, ARQ, linear block codes, cyclic codes, BCH codes, convolutional codes, Viterbi decoding, free distance, interleaving, coding gain, case studies

Suggested Reading

Digital Communication : Simon Haykin, John Wiley & Sons

Modern digital and analog communication system : B.P.Lathi, Oxford University press (3rd edition)

Communication systems A. Bruce Carlson, McGraw Hill (3rd edition)

Digital communication: J.G.Prokais, McGraw Hill (5th edition)

Digital Communications Lab Credit: 2 (P)

Description:

Not available

Suggested Reading

Not Available

Digital Signal Processing Credit: 4 (T/C)

Description:

Review of signals and systems: Motivation and introduction to the course, Basic concepts of signals and systems, interconnection of the systems and filtering.

Transform analysis of LTI systems : Z – transform and the Region of convergence of the system, Complex convolution theorem, system described by difference equations, Frequency response of LTI systems and system functions, relation between magnitude and phase, All pass systems, Minimum phase systems, Linear Systems with Generalized Linear Phase.

Structures for Discrete Time systems: Representation of system described by Linear Constant Coefficient Difference Equations, Lattice Structures.

FIR Filter Design Techniques: Design of FIR filters by windowing, FIR filter by the Kaiser window, Optimum approximation of FIR Filters.

The Discrete Fourier Transform and Computational Aspects: Orthogonal transform, discrete Fourier transform (DFT), Relation between Fourier transform and DFT, Circular Convolution, DFT properties, Computation of DFT, Linear Convolution using the DFT, Fast computation of DFT.

Multirate digital Signal Procesing: Rate convertor and their characterization, multistage design of Decimator and Interpolator, poyphase decomposition, Applications of mutirate systems.

Adaptive signal Processing: Stochastic signals, Wiener Filtering, LMS and RMS algorithms, spectral estimation.

Suggested Reading

Digital Signal Processing, S K Mitra, Tata McGraw-Hill, 3rd ed. (Text Book)

Digital Signal Processing: Principles, Algorithms and Applications, Proakis, et al , Prentice Hall, 3rd ed.

Probability, Random Variables and Stochastic Processes, Papoulis, et al, McGraw-Hill, 3th ed.

Discrete-Time Signal Processing by Oppenheim

Digital Signal Processing Lab Credit: 2 (P)

Description:

Not available

Suggested Reading

Not Available

Engineering Electromagnetics Credit: 4 (T/C)

Description:

Review of fundamental concepts and definitions (including a rehash of circuit theory) Transmission Line Theory, Electromagnetics and Maxwell’s Equations, Boundary Conditions, Wave Equation , Uniform and Non-Uniform Plane Waves, Analysis of Coaxial Line, Analysis of Rectangular Waveguide, Analysis of Circular Waveguide, Resonators, Microwave Integrated Circuits (MICs), Coupled Transmission Lines Suggested Reading

Electromagnetic Waves and Radiating Systems, by Edward C. Jordan and K.G. Balmain, Prentice Hall, 2003.

Electromagnetic Field Theory and Transmission Lines, by G.S.N. Raju, Pearson Education, 2005.

Elements of Electromagnetics, Matthew N.O. Sadiku, Oxford University Press, 2001.

Microwave Engineering, David M. Pozar, John Wiley, 2003

Laser Communication Credit: 4 (T/C)

Description:

Introduction to lasers, Physical Basics, The Fundamental Processes of Laser, Resonant Optical Cavities, Beam Characteristics, Laser Accessories, Different kinds of lasers, Applications of Lasers, Laser Hazards, Optical Communication

Suggested Reading

Lasers: Peter Milonni and Joseph H. Eberly

Principle of Lasers: Orazio Svelto and David C Hanna

Laser Fundamentals : William Tb Silfast

Lasers and Non-Linear Optics: B B Laud

Mobile Communication Credit: 4 (T/C)

Description:

Introduction : Panorama: Past, Present and Future scenario, Cellular concepts, Propagation Characteristics of mobile channels, Access techniques, Algebraic concepts, PN Sequences, Walsh Functions etc, Mobile standards: GSM, CDMA, X-Generation mobile systems (x: 1, 2, 2+, 3, 4), Mobile satellite communication

Suggested Reading

Principles of Communication Credit: 4 (T/C)

Description:

Communication problem and System models,Signal transmission through a Linear system, Signal distortion over a Communication channel, Autocorrelation function, Energy and Power spectral density, Representation of bandpass signals, Analog modulation systems, Performance evaluation, Receivers, Sampling of analog signals, Frequency-Division Multiplexing, Elements of Information theory

Suggested Reading

Microwave Circuits and Antennas Credit: 4 (T/C)

Description:

Term 1

Radiation Fundamentals, Herzian dipole antenna , Dipoles and Monopoles of arbitrary length (including quarter-wave and half-wave cases), Antenna performance parameters and their definitions, Propagation of electromagnetic waves in free-space and other media Term 2

Transmitter and Receiver block diagrams , Multi-Port Microwave Networks and their analysis (Z-parameters,Y-parameters,ABCD-parameters, and S-parameters), Impedance matching techniques (lumped-component approach, single-stub matching, double-stub matching, impedance transformers, tapers)

Term 3

Microwave Filter Design by Image Parameters Method (Constant-k design, m-derived design, composite filter design) , Microwave Filter Design by Insertion Loss Method (Maximally Flat Response, Equiripple Response, Linear Phase Response), Scaling of filter designs (Impedance Scaling, Frequency Scaling, Low-Pass to High-Pass transformation, Low-Pass to Band-Pass Transformation, Low-Pass to Band-Stop Transformation), Filter Design Implementation-Related issues, especially at high frequencies, Parallel Coupled-Line Section and its use in Microwave Filter Design, Power dividers and Power Combiners, Directional Couplers, Isolators and Circulators

Suggested Reading

‘Microwave Engineering’ by David M. Pozar, John Wiley 2003.

‘Electromagnetic Waves and Radiating Systems’ by E.C. Jordan and K.G. Balmain, Prentice Hall of India, 2005

Microprocessors and Microcontrollers Credit: 4 (T/C)

Description:

Basics of Microprocessor and Microcontrollers, Microcontroller programming, Making PCBs, Use of different ICs available in the market.

Suggested Reading

Not Available

Microprocessors and Microcontrollers lab Credit: 2 (P)

Description:

Not Available

Suggested Reading

Not Available

English Credit: 5 (T/C/P)

Description:

Grammar

Parts of speech, Co-ordination and Subordination, Sequence of tenses, Uses of articles, Reported speech, Passive voice, Phrasal Verbs and Idioms, Reading Comprehension, Paragraph writing, Precis writing, Report writing, Letter writing, Memorandum writing

Spoken English

Phonemes,Organs of Speech,Word Stress, Sentence stress, Rhythm, Pitch, Tone, Syllable,Situation- specific conversation practice

Suggested Reading

Practical English Usage by Michael Swan

A Textbook of English Grammar By R.P.Bhatnagar

Effective English Communication By Krishna Mohan and Meenakshi Raman

English Conversation Practice by Grant Taylor

Communicative English Credit: 5 (T/C/P)

Description:

Hands on training in the Language Lab where students are exposed to all the four skills for good communication, i.e., reading, writing, listening and speaking. The language learnt in the classroom is practiced thoroughly through the exercises of the software.

Story reading and narrating. For e.g., Malgudi Days by R.K.Narayan.

Oral presentations with the help of power point slides based on general and technical topics chosen by the students. This helps the students gain an in-depth knowledge of the chosen topic and of presenting it in front of an audience, which in turn enhances their overall confidence and spoken skills.

Group Discussions to instill leadership and team building qualities and how to come to a consensus in crucial matters after discussions with the team mates.

Writing assignments to improve vocabulary and grammar

Suggested Reading

Not Available

Business Skills and Soft Skills Credit: 5(T/C/P)

Description:

• Approximation Theory
• Practical Economics
• importance of economics in business
• key elements of macro-economics
  • growth, inflation, employment
  • interest rates, money supply
  • taxation, public spending
• international context
  • economic indicators
  • international capital markets & funding agencies
  • impact of globalisation
  • emerging economies, esp China
  • crucial role of IT in India’s economic development
• Managerial finance
• sources of funds
  • equity, debt
  • international markets
• Balance Sheet: key components
• Income Statement: key components
• key ratios, esp. price/earnings
• profitability, diversification of earning
• stakeholders; analysts; rating agencies; corporate governance
• Entrepreneurship
• 360 degree view of management
• enterprising: creating opportunities
• solution-orientation
• risk taking: uncertainty; speed of correction is key
  • Soft Skills
  • a complete professional
• comfortable with the unfamiliar, the incomplete & the uncertain
• importance of the right attitude
• key differentiator between the good and the excellent
• Aspects of professionalism: conversion of talent into performance
• Teamwork is key at work; networking is essential
• usefulness of adversity and pain
• dealing with mishaps: need for quickness of recovery: methods
• work ethic & business ethics, including gender ethics
  • a “CEO mindset”
• creativity & discontinuity
• bifocal lengths: the big picture & 10 years hence
• multidimensional capability through “learnability”
• solution orientation and bias for action
• an “ambassadorial” outlook
• personality development, self confidence, self motivation
• etiquette, conduct, body language
• communication & presentation skills
• cultural sensitivity
• a humane approach
• going beyond the best
• traditional values do pay back
• trustee of one’s abilities

Suggested Reading

Not Available

Social Aspects of Management Credit: 5 (T/C/P)

Description:

Organizational behaviour.

Workplace

Surveys and projects

Suggested Reading

Fundamentals Of Sociology

Psychology and Life Credit: 5 (T/C/P)

Description:

Introduction to psychology.

Types of psychology.

Stress management.

Behaviour study.

Suggested Reading

Not Available

Environment and Ecology Credit: 5 (T/C/P)

Description:

Study of environment and eco system.

Types of pollutions and how to prevent it.

Sources of energy.

Green Chemistry.

Suggested Reading

Not Available

Elective Courses for CCE