CO - Electrical & Electronics
CO - Electrical & Electronics
CO - Electrical & Electronics
144
Faculty List:
Professor & Head
Dr. Savitha G. Kini. Ph.D. (Jadhavpur University)
Professors
Dr. Vinod V. Thomas Ph. D. (IIT Madras)
Dr. Chandrashekara Adiga S. Ph.D.(Manipal University)
Dr. Ciji Pearl Kurian Ph.D.(Manipal University)
Dr. B. K. Singh Ph.D. (Manipal University)
Dr. P. Giridhar Kini. Ph.D.( Manipal University)
Assistant Professors
Mrs. R. Srividya M.Tech
Ms. Swathi Tangi M.Tech
Mr. Vikas Kumar Jhunjhunwala M.Tech
Mr. Siddaraj M.Tech
Mr. Sarun Soman M.Tech
Mrs. Divya Shetty M.Tech
Mrs. Shwetha V. M.Tech
Mr. Siddhartha M.Tech
Ms. Ranjana G M.Tech
Mr. Adarsh S.M M.Tech
Mr. Satyakam M.Tech
Mr. Vipin V. M.Tech
Ms. Akshatha Lakshmi. M.Tech
Mr. Lokesh J. M.Tech
Mrs. Sowmya R M.Tech
Mr. Vedavyasa Kamath M.Tech
Ms. Namrata Pai M.Tech
Mr. Vineeth Patil M.Tech
Ms. Geethi Krishnan M.Tech
Ms. Athulya Jyothi M.Tech
Ms. Shruthi Ramachandra M.Tech
Mr. Harshendra N. Shet K. M.Tech
Ms. Suprabha Padiyar U. B.Tech (on contract)
145
146
HUM 4001
ELE 4101
ELE ****
ELE ****
ELE ****
ELE ****
ELE 4111
ELE 4112
III
IV
MAT 2102
ELE 2101
ELE 2102
ELE 2103
ELE 2104
ELE 2105
ELE 2111
ELE 2112
Subject Code
ELE 3101
ELE 3102
ELE 3103
ELE 3104
ELE 3105
ELE 3106
ELE 3111
ELE 3112
II
Year
Essentials of Management
Switchgears & Protection
Program Elective III
Program Elective IV
Program Elective V
Program Elective VI
Power Electronics Lab
Advanced Energy Systems Lab
SEVENTH SEMESTER
FIFTH SEMESTER
Sub. Name
THIRD SEMESTER
1
1
0
0
0
0
0
0
2
17
15
2
3
3
3
3
3
0
0
1
1
1
1
1
1
0
0
3
2
2
3
3
2
0
0
13
T
1
1
1
1
1
1
0
0
2
2
2
3
2
2
0
0
0
0
0
0
0
0
3
3
0
0
0
0
0
0
3
6
0
0
0
0
0
0
3
6
21
3
4
3
3
3
3
1
1
24
4
3
3
4
4
3
1
2
22
3
3
3
4
3
3
1
2
ELE 4297
ELE 4298
ELE 4299
HUM 4002
ELE ****
ELE ****
ELE 3201
ELE 3202
*** ****
ELE 3211
ELE 3212
MAT 2206
ELE 2201
ELE 2202
ELE 2203
ELE 2204
*** ****
ELE 2211
ELE 2212
Subject Code
Sub. Name
FOURTH SEMESTER
Seminar
Industrial Training
Project Work/Practice School
EIGHTH SEMESTER
SIXTH SEMESTER
Engineering Mathematics IV
Signals & Systems
Electrical Machinery II
Digital System Design & Computer Architecture
Analog System Design
Open Elective I
Electrical Machinery Lab I
Integrated Electronics Lab II
16
2
3
3
3
2
3
0
0
15
2
2
3
3
2
3
0
0
1
0
0
1
1
0
0
0
1
1
1
1
1
0
0
0
0
0
0
0
0
0
6
3
0
0
0
0
0
0
3
6
14
1
1
12
22
3
3
3
4
3
3
2
1
23
3
3
4
4
3
3
1
2
THIRD SEMESTER
Minor Specializations
I.
1.
2.
3.
4.
Embedded Systems
ELE 4001: Embedded System Design
ELE 4002: FPGA Based System Design
ELE 4003: Embedded Processor Architecture
ELE 4004: Real Time Systems
II.
1.
2.
3.
4.
Energy Management
ELE 4005: Advanced Energy Management
ELE 4006: Energy Auditing
ELE 4007: Lighting Science: Devices and Systems
ELE 4008: Power System Operation and Control
III.
1.
2.
3.
4.
Energy Systems
ELE 4008: Power System Operation and Control
ELE 4009: Computer Techniques in Power System Analysis
ELE 4010: Modern Power Converters
ELE 4011: Solid State Drives
IV.
1.
2.
3.
4.
V.
1.
2.
3.
4.
Business Management
HUM 4011: Financial Management
HUM 4012: Human Resource Management
HUM 4013: Marketing Management
HUM 4014: Operations and Systems Management
1.
2.
3.
4.
5.
6.
7.
8.
Open Electives
ELE 3281: Analog & Digital Electronic Circuits
ELE 3282: Electric Drives
ELE 3283: Electrical Energy Systems
ELE 3284: Energy Auditing
ELE 3285: Energy Conversion Technologies
ELE 3286: Microcontrollers
ELE 3287: MATLAB for Engineers
ELE 3288: Lighting Design
FOURTH SEMESTER
MAT 2208: ENGINEERING MATHEMATICS - IV [2 1 0 3]
Statistics: Mean, Median, Mode measures of dispersion. Finite sample
spaces, conditional probability and independence, Bayes' theorem, one
dimensional random variable, mean, variance, Chebyshev's inequality.
Two and higher dimensional random variables, covariance, correlation
coefficient, curve fitting. Binomial, Poisson, uniform, normal, gamma,
Chi-square and exponential distributions. Moment generating function,
Functions of one and two dimensional random variables, Sampling
theory, Central limit theorem. Difference equations with constant
coefficients, solutions. Z- transforms and Inverse Z-transforms.
Solutions of Difference equations using Z-transforms. Solution of
boundary value problems, Numerical solutions of Laplace and Poisson
equations, heat and wave equations by explicit methods.
148
References:
1. P. L. Meyer, Introduction to probability and Statistical Applications
, (2e), American Publishing Co., 1979.
2. Erwin Kreyszig, Advanced Engineering Mathematics, (5e), Wiley
Eastern, 1985.
3. A. V. Openheim & R. W. Schafer, Digital Signal Processing,
Prentice Hall,1975.
4. Hogg & Craig, Introduction to Mathematical Statistics, (4e),
MacMillan, 1975.
5. Narayanan Ramaniah and Manicavachagom Pillay Advanced
Engineering Mathematics.
ELE 2201: SIGNALS AND SYSTEMS [2 1 0 3]
Time domain analysis of continuous-time and discrete-time signals &
systems: linear-time invariant systems, impulse response, convolution,
causality and stability, representation of LTI systems, Frequency domain
analysis of continuous time signals and systems: Fourier series, Fourier
transform, properties and applications, Frequency domain analysis of
discrete-time signals and systems: Discrete-time Fourier series,
Discrete-time Fourier transform, properties and applications, Z
transform representation of discrete time signals and systems,
properties and applications
References:
1. Haykin S., Signals and Systems, Wiley, 1999.
2. Oppenheim, Willisky, and Nawab, Signals and Systems, (2e),
PHI, 1997.
3. Ziemer R.E., Tranter W.H. & Fannin D. R., Signals and Systems,
(4e), Pearson, 2002.
ELE 2202: ELECTRICAL MACHINERY - II [3 1 0 4]
Operating principle of DC motors, Types, Characteristics, speed control,
starters, Losses, Efficiency and testing
Principle of synchronous generator, Types, Construction, Field MMF,
Armature windings, Emf equation, harmonic suppression, Modeling of
alternator, Phasor diagrams, Armature leakage reactance, Armature
reaction, Pre-determination of voltage regulation, Synchronization, Load
sharing, Governor characteristics, Power angle characteristics,
Synchronizing power and torque, effect of varying excitation, effect of
varying the input torque, Alternator connected to infinite bus, Two
reaction theory for salient pole synchronous generator
Construction, operating principle of synchronous motor, Starting
methods, power input and power output as a function of torque angle,
Synchronizing power and torque, Performance characteristics, V
curves, Inverted V curves, Power and excitation circles, O-curves,
Hunting, Natural frequency of Oscillations, power factor improvement by
Synchronous motor.
References:
1. P. S. Bimbhra, Electrical Machinery, (7e), Khanna publishers,
2012
2. D. P. Kothari & I. J. Nagrath, Electric Machines, (4e), TMH,
2013
3. Langsdorf E. H., Theory of Alternating Current Machinery, (2e),
TMH, 2004
4. Say M. G., Alternating Current Machines, (5e), ELBS, 1994
5. Mukherjee P. K. & Chakravarti C, Electrical Machines, (2e),
Dhanpat Rai& Sons, 2005
149
FIFTH SEMESTER
ELE 3101: LINEAR CONTROL THEORY [3 1 0 4]
Mathematical models: electrical, mechanical and electro-mechanical
systems, block diagram reduction, signal flow graphs, Mason's gain
formula; Time Response: transient response specifications of second
order systems, steady state error, sensitivity; Stability: BIBO stability,
Routh- Hurwitz criterion , Root locus plot ; frequency domain
specifications; Frequency Response plots: Polar plots, Nyquist stability
criterion, Bode plots; P, PI, PD & PID controllers ; State Space Model:
canonical forms, solution of state equation , controllability and
observability, pole placement design; Lyapunov stability for LTI systems.
References:
1. Ogata K, Modern Control Engineering, (5e), Englewood Cliffs, NJ:
Prentice Hall, 2010.
2. Norman S. Nise, Control Systems Engineering, (5e), John Wiley &
Sons, Inc, 2010.
3. K. R. Varmah, Control Systems, TMH, 2010.
4. Prof. S.D. Agashe IIT Bombay, Control systems: http://www.
nptel.iitm. ac.in/ courses/108101037/
5. Frazzoli, Emilio, and Munther Dahleh. 6.241J Dynamic Systems
and Control, Spring 2011. (MIT Open Course Ware:
Massachusetts Institute of Technology)
ELE 3102: DIGITAL SIGNAL PROCESSING [2 1 0 3]
Review of time-domain and frequency domain properties of discretetime signals and systems, Sampling in time and frequency domain.
Discrete Fourier Transform -Linear convolution using DFT. Computation
of DFT-Fast Fourier Transform, Decimation in time and Decimation in
frequency FFT algorithms, Computational considerations. Digital FiltersDigital filter structures, FIR and IIR filters, finite word length effects. FIR
filter design- FIR design by Fourier approximation, Window method,
Frequency sampling method, Optimal FIR design, IIR filter design:
Classical filter design using Butterworth and Chebyshev approximations,
Impulse invariant and bilinear transformation methods, Frequency
transformation technique for HP, BP and BS filter design, Direct design of
IIR filters. Real time implementation of DSP algorithms.
References:
1. Proakis J. G. and D. G. Manolakis, Introduction to Digital Signal
Processing, PHI, 2009
2. Oppenheim A.V. and R.W. Schafer, Discrete time signal processing,
Pearson, 2009.
3. Mitra S. K., DSP: A computer based approach, (2e), TMH, 2006
4. Johny R. Johnson, Introduction to Digital Signal Processing,
Prentice Hall of India/Pearson Education, 2002.
ELE 3103: COMMUNICATION SYSTEMS [2 1 0 3]
Elements of an Electrical Communication System, Communication
channels and their characteristics. Analog Communication Systems: AM
- Principles, Transmitters and Receivers, Angle modulation, Frequency
modulation- FM demodulation, FM receivers, FM stereo broadcasting,
FM Radio communication, Television signal transmission & reception.
Digital Communication: Sampling theorem. pulse modulation
techniques; Multliplexing TDM, FDM. Data communication techniques:
Data transmission using analog carriers, MODEMS employing FSK, PSK,
DPSK, QPSK, and ASK. Signal constellation. Error control coding
techniques. Overview of computer networks and Multiuser Radio
Communications
References:
1. Simon Haykin, An Introduction to Analog and Digital
Communications, John Wiley & Sons,2010
2. Simon Haykin, Communication Systems, John Wiley & Sons, 4th
edition,2013
3. Tomasi. W., Electronic communication systems, Pearson, 2011
4. Theodre S Rappaport., Wireless communications-Principles &
Practice, PHI, 2011
5. Herbert Taub, Donald L Schilling, Principles of communication
Systems, McGraw Hill, 2009
ELE 3104: GENERATION, TRANSMISSION &
DISTRIBUTION [3 1 0 4]
Introduction , General layout of a power system, voltage levels,
conventional ways of generating electric power, computation of line
parameters for single phase and three phase, line performance, need for
reactive power compensation mechanical design of lines sag and
tension calculation, overhead insulators, underground cables, corona.
References:
1. S.N. Singh, Electric Power Generation, Transmission &
Distribution, PHI, 6th printing, 2006.
2. Kothari &Nagrath, Power System Engineering, (2e), TMH, 2007.
3. Arora & Domkundwar, A Course on Power Plant Engg, (3e),
DhanpathRai, 2002
4. Nag P K, Power plant Engneering, TataMcGraw Hill, 2002.
5. Wadhwa, Electrical Power System, (3e), New Age Intl, 2000.
ELE 3105: POWER SYSTEM ANALYSIS [3 1 0 4]
Representation of power systems: One line diagram, impedance
diagram, Thevenin's model, Admittance and impedance model for power
systems & network calculation. Load flow studies. Symmetrical threephase faults, selection of circuit breakers. Asymmetrical faults:
Symmetrical components, sequence networks of power systems,
analysis of unsymmetrical faults in generators and power systems under
no-load and loaded conditions. Stability studies: Steady-state and
transient-state stability, Multi machine stability.
150
References:
1. Stevenson W. D., Elements of Power System Analysis, (4e), MGH,
1982.
2. Elgerd O. I., Electric Energy System Theory: An Introduction, (2e),
TMH, 1982.
3. Nagrath I. J. & D. P. Kothari, Modern Power System Analysis, (3e),
TMH, 2003.
4. Hadi Saadat, Power System Analysis, MGH, 1999.
ELE 3106: MICROCONTROLLER BASED SYSTEM DESIGN [2 1 0 3]
Introduction to microprocessors and microcontrollers, general purpose
and embedded systems, CISC and RISC architectures, 8051
microcontroller: Architecture, pin diagram, addressing modes,
instruction set, programming, stack, subroutines, GPIO, timers, serial
port, interrupts. Interfacing keyboard, LCD and DAC to 8051. ARM
processor: Processor modes, visible registers, ARM and Thumb
instruction sets, programming, stack, subroutine, exceptions, pipelined
architecture. NXPLPC21XX microcontroller: architecture, programming,
timers, watchdog timer, ADC, interfacing DC motor, stepper motor and
seven segment LED.
References:
1. Muhammad Ali Mazidi and GillispieMazidi, The 8051
Microcontroller and embedded systems, using assembly and 'C',
Pearson education, 2011.
2. Kenneth. J. Ayala, The 8051 Microcontroller and embedded
systems, using assembly and 'C', Cengage Learning, 2009.
3. Steve Furber, ARM System - on Chip Architecture, Pearson,
Second Edition, 2007
4. William Hohl, ARM Assembly Language, CRC Press, 2012
ELE 3111: ELECTRICAL MACHINERY LAB - II [0 0 3 1]
Magnetisation characteristics of DC generator, Load test on dc
machines, Speed control of D.C. shunt motor. Tests on DC Machines, Vand inverted V-curves of synchronous machines, Measurement of Xd
and Xq of a salient pole synchronous machine, Predetermination of
regulation of alternator.
References:
1. P. S. Bimbhra, Electrical Machinery, (7e), Khanna publishers,
2012
2. Langsdorf E.H., Theory of Alternating Current Machinery, (2e),
TMH, 2004
3. Mukherjee P. K. & Chakravarti C, Electrical Machines, (2e),
DhanpatRai& Sons, 2005
ELE 3112: MICROCONTROLLER LAB [0 0 6 2]
Module I: Experiments using 8051 Microcontroller
Module II: Interfacing exercises using 8051 microcontroller
Module III: Experiments using ARM processor based microcontroller.
References:
1. Muhammad Ali Mazidi and GillispieMazidi, The 8051
Microcontroller and embedded systems, using assembly and 'C',
Pearson education, 2011.
2. Kenneth. J. Ayala, The 8051 Microcontroller and embedded
systems, using assembly and 'C', Cengage Learning, 2009.
3. Steve Furber, ARM System - on Chip Architecture, (2e), Pearson,
2007.
4. LPC21XX User Manual
SIXTH SEMESTER
HUM 4002: ENGINEERING ECONOMICS AND FINANCIAL
MANAGEMENT [3 0 0 3]
Nature and significance, Micro & macro differences, Law of demand and
supply, Elasticity & equilibrium of demand & supply. Time value of
money, Interest factors for discrete compounding, Nominal & effective
interest rates, Present and future worth of single, Uniform gradient cash
flow. Bases for comparison of alternatives, Present worth amount,
Capitalized equivalent amount, Annual equivalent amount, Future worth
amount, Capital recovery with return, Rate of return method, Incremental
approach for economic analysis of alternatives, Replacement analysis.
Break even analysis for single product and multi product firms, Break
even analysis for evaluation of investment alternatives. Physical &
functional depreciation, Straight line depreciation, Declining balance
method of depreciation, Sum-of-the-years digits method of depreciation,
Sinking fund and service output methods, Costing and its types Job
costing and Process costing, Introduction to balance sheet and profit &
loss statement. Ratio analysis - Financial ratios such as liquidity ratios,
Leverage ratios, Turn over ratios, and profitability ratios
References:
1. Blank Leland T. Tarquin Anthony J., Engineering Economy,
McGraw Hill, New Delhi, 2002.
2. Chan S. Park, Contemporary Engineering Economics, Pearson
Education, Inc., 2010
3. Raman B. S., Advanced accountancy, United publications,
Bangalore, 1993
4. T. Ramachandran, Accounting and Financial Management,
Scitech Publications Pvt. Ltd. India, 2001.
5. Thuesen G. J & Thuesen H. G., Engineering Economics, Prentice
Hall of India, New Delhi, 2005
ELE 3201: POWER ELECTRONICS [3 1 0 4]
Power Semiconductor Devices: SCR, Power MOSFET, IGBT- structure,
characteristics, safe operating area, base/gate driver requirements,
ratings, protection, GTO, Triac- structure, operation; Converter
Topologies: single phase and three phase half and fully controlled bridge
rectifiers-operation with different loads, triggering sequence, expression
for voltage and current, THD, input power factor, effect of source
inductance, inverter mode, dual converters; AC voltage regulators; DCDC converters-buck and boost converters, quadrants of operation; DCAC converters-circuit topologies, switching, harmonic spectrum, multilevel inverters; Principle of space vector modulation and soft switching.
References:
1. Hart D. W., Power Electronics, Tata Mcgraw-Hill, 2011
2. Ned Mohan et.al., Power Electronics, Converters, Applications &
Design,(2e), Wiley.2010
3. Bose B. K., Modern Power Electronics and AC Drives, Pearson,
2010.
4. Rashid M. H., Power Electronics, Circuits, Devices and
Applications, PHI, 2007.
5. Bimbhra P. S., Power Electronic, Khanna Pub., 2012.
ELE 3202: MEASUREMENTS And INSTRUMENTATION [2 1 0 3]
Basic concepts of measurements - System configuration, calibration Errors in measurements: Measuring instruments: Permanent magnet
moving coil; Moving iron; and Electrodynamometer type Applications Measurement of Resistance, Inductance & Capacitance: A.C. Bridges,
151
SEVENTH SEMESTER
HUM 4001: ESSENTIALS OF MANAGEMENT [2 1 0 3]
Definition of management and systems approach, Nature & scope, The
functions of managers, Corporate social responsibility. Planning: Types
of plans, Steps in planning, Process of MBO, How to set objectives,
Strategies, Policies & planning premises, Strategic planning process and
152
EIGHTH SEMESTER
4
4
4
4
4
4
4
I.
EMBEDDED SYSTEMS
Parallel and Serial bus and bus protocols; Wireless Protocols; Error
detection and correction; Interrupts; Real-time Operating Systems:
Scheduling, Memory and I/O Management; Embedded Software
Development: Flow, Environments and Tools.Low Power Embedded
System design; Software and hardware co design; Testing of Embedded
Systems.; System Design Example.
References:
1. Frank Vahid and Tony Givargis, Embedded System Design, Wiley
India, 2012.
2. Shibu K V, Introduction to Embedded Systems, Tata McGraw Hill,
2012
3. Raj Kamal, Embedded Systems, Tata McGraw Hill, 2012.
4. Santanu Chattopadhyay, Embedded System Design, PHI, 2010.
5. http://nptel.iitm.ac.in/coursecontents_elec.php
ELE 4002: FPGA BASED SYSTEM DESIGN [3 0 0 3]
Overview of Digital Systems
Implementation options , FPGA
Architecture, Programming technologies, Altera &Actel logic cells, I/O
Blocks, Programmable interconnects, Logic implementation , Design
verification- Test bench codes, Hardware testing, FPGA Architectural
options; granularity of function and wiring resources, reconfigurable
architectures- Fine grained, Coarse grained ,Medium grained ,
Embedded multipliers, adders, MACs, processor cores, Configuring an
FPGA ; Vendor specific issues, Logic block architecture, timing modelsstatic and dynamic timing analysis, Input and Output cell characteristics ,
Power dissipation, Partitioning and placement, Routing resources
,Embedded system design using FPGAs, DSP using FPGAs, Multi FPGA
systems, Reconfigurable systems, Application case studies
References:
1. M.J.S. Smith, Application Specific Integrated Circuits, Pearson,
2000
2. Peter Ashenden, Digital Design using VHDL/Digital Design using
Verilog, Elsevier, 2007
3. W. Wolf, FPGA based system design, Pearson, 2004
4. Clive Maxfield, The Design Warriors Guide to FPGAs, Elsevier,
2004
ELE 4003:EMBEDDED PROCESSOR ARCHITECTURE [3 0 0 3]
ARM 9 Processor Fundamentals - Registers, Current Program Status
Register, Processor Modes, Instruction set and addressing modes.
Pipelined architecture, ARM 9 Exceptions, and the Vector Table. The
ARM memory interface, The Advanced Microcontroller Bus Architecture
(AMBA). ARM9E Instruction Cycle Timings,ARM9TDMI architecture,
ARM coprocessor interface. Introduction to ARM 11 and ARM Coretx
Processors. Application of ARM processor for embedded applications.
References:
1. S.B. Furber, ARM System-on-Chip Architecture Addison Wesley
Longman, 2000,ISBN: 0-201-67519-6
2. Andrew N. Sloss, Dominic Symes, Chris Wright , ARM System
Developer's Guide Designing and Optimizing System Software,
Morgan Kaufmann publishers
ELE 4004: REAL TIME SYSTEMS [3 0 0 3]
Difference between real time embedded systems and non-real time
systems, characteristics of real time systems, real time concepts,
terminology, real time design issues, examples, Real time specifications
and design techniques, Basic Features of an Operating System, Real time
operating systems. Kernel Features, Real-time Kernels, Processes and
153
References:
1. Paul W. O'Callaghan, Energy Management A comprehensive guide
to reducing costs by efficient energy use, McGraw Hill, England,
1992
154
155
156
of IP packets, Virtualization overview, advanced switching conceptsSTP,VLAN, VTP, Structure of a router, Routing methods, routing table
design, Static and dynamic routing protocols-RIP, IGRP, link state-OSPF
with configurations, Cloud computing Architecture, Amazon Cloud
Computing, Service levels for cloud computing, Data centers, Server
Architecture Overview-server farms, Application Architectures, Data
Center Design , server Load Balancing. Wireless LAN &WAN, Planning
and Operation of Wireless Networks, WLAN Security, Voice over
Wireless, Location Based Services. Basics and Signalling Analog circuit,
Basic Call Setup, ISDN, VoIP, IP Signalling Protocol, SIP, Applied PSTN
Numbering Plan
References:
1. Monks Joseph G., Operations Management, Tata McGraw-Hill
Publishing Co. Ltd., New Delhi, 2004.
2. Krajewski Lee J. and Ritzman Larry P., Operations Management,
Pearson Education (Singapore) Pte. Ltd., Delhi, 2005.
3. Mieghem J., Operations Strategy: Principles and Practices,
Dynamic Ideas, ISBN: 0-9759146-6-9, 2008.
4. Sterman J.D., Business Dynamics - Systems Thinking and
Modeling for A Complex World, McGraw Hill, International Edition,
2004.
5. Senge Peter, The Fifth Discipline, Currency Doubleday, New York,
1990.
References:
1. Forouzan Behrouz A., TCP/IP Protocol suite, Tata Mcgraw Hill
Publishing Co. Ltd., New Delhi 2000.
2. Tanenbaum A. S., Computer Networks, (3e), Prentice Hall of India
Pvt Ltd (EEE), New Delhi 1996.
3. Danielle Ruest, Nelson Ruest , Virtualization, A Beginner's Guide.
4. Todd Lammle, CCNA Cisco Certified Network Associate Study
Guide, (7e)
5. Robert C Elsen Peter et.al, Cloud Computing, A Practical Approach
Cloud Application Architecture, McGraw Hill,
157
158
159
OPEN ELECTIVES
ELE 3281: ANALOG And DIGITAL ELECTRONIC CIRCUITS [3 0 0 3]
(Not Applicable to E&C, ICE, Mechatronics)
Operational amplifiers and applications - dc voltage follower, bridge
amplifier, integrator, differentiator, low pass, high pass and band pass
active filters, precision diode and clamp, log antilog amplifiers, astable,
monostable and triangular wave generators, Schmitt Trigger, Analog
multiplier - Phase locked loop and applications - Phase comparator,
Voltage controlled Oscillator, Functional block Schematic of PLL, PLL
applications in communication- Number systems- Conversions
between Number Systems - Subtraction using 1's and 2's. Complements
- Karnaugh maps, Logic gates Truth tables, Realization of Boolean
functions using Gates, Universal Gates - Msi combinational circuits Half and Full adders, magnitude comparator, Decoder, Encoder,
Multiplier, ROM, PLA, - Sequential circuits - Flip Flops Synchronous and
Asynchronous Counters, Design of counters , 74194 Shift Register IC
based design.
References:
1. Franco Sergio, "Design with Op amps &Analog Integrated Circuits"
McGraw Hill, 1997.
2. Ramakant A. Gayakwad, Op-Amps and Linear Integrated Circuits,
Prentice Hall of India
3. Givone, Digital Principles & Design, TMH, 2003
ELE 3282: ELECTRIC DRIVES [3 0 0 3]
(Not Applicable to Mechatronics & Printing)
Electric Drives - Components of electric drives, factors affecting choice
of drives, dynamics of electrical drives, fundamental torque equation,
speed-torque conventions, multi-quadrant operation of electric drives,
load torque components, nature and classification of load torque,
equivalent moment of inertia, steady state stability, load equalization Motor power rating, thermal model, classes of motor duty - Introduction
to thyristors, characteristics, power converters: AC to DC, DC to DC, AC
to AC, DC to AC - DC Drives Systems - characteristics, starting, speed
control, braking - AC Drives Systems: characteristics, starting, speed
control, braking - Closed loop motor control schemes - Constant Torque,
Speed, Position control systems.
References:
1. Dubey G. K, Fundamentals of Electric Drives, (2e), Narosa, 2001
2. De N. K and Sen P. K, Electric Drives, PHI, 1999
3. Pillai S. K, A First Course on Electric Drives, New Age International,
1989
ELE 3283: ELECTRICAL ENERGY SYSTEMS [3 0 0 3]
Power Systems - Voltage and Frequency Standards Energy - Power
Plants - Thermal Power - Nuclear Power Plant - Diesel Power Plant Hydro Electric Power Plants - Gas turbine power plant - Applications Combined operation of power plants, load division among different types
of power plants - Renewable Energy - Solar, Wind, Biomass,
Geothermal, tidal, Fuel Cell - Transmission Systems - Overhead lines,
Line representation, Insulators, Underground cables, Classification Distribution Systems - Types, Feeders, Distributors, Service Mains,
Substation Layout - Protection Systems - Faults, Earthing, Fuse, Circuit
Breakers, Relays, Electric Safety, Shock, Grounding practice, Standards,
Domestic Wiring - Performance Analysis - Transformers, Induction
Motors, HVAC & Lighting loads - Load Characteristics & Economic
Aspects, Power Factor correction, Tariff .
References:
1. M. A. El-Sharkawi, Electric Energy An Introduction, (2e), CRC
press.
2. J. B. Gupta, A Course in Electrical Power, S. K. Kataria & Sons,
1996.
3. C. L. Wadhwa, Electrical Power System, (3e), New Age Intl.,
2000
ELE 3284: ENERGY AUDITING [3 0 0 3]
Energy: Energy Types, Needs, Scenario, Security, Environmental Impact,
Costs, Material & Energy Balance, Consumption Pattern, Sankey
Diagram, Energy Policy, Information Systems, Energy Conservation Act
2001 Energy Audit - Purpose, Scope, Types, Methodologies, Reporting,
Instruments, Energy Auditor Responsibilities Energy Management
Energy Management principles, Strategy, Benchmarking, Energy
Manager Responsibilities Performance Assessment - Boilers, Steam
Systems, Furnaces, Insulation & Refractories, Cogeneration, Waste Heat
Recovery, Transformers, Motors, Compressors, Refrigeration Systems,
Fans, Blowers, Pumps, Cooling Towers, Illumination Systems, DG Sets
Energy Economics Economic analysis of investments, Simple payback
method, return on investment, net present value, internal rate of return,
life cycle costing, energy performance contracts and role of ESCOs.
References:
1. Paul W. O'Callaghan, Energy Management - A comprehensive
guide to reducing costs by efficient energy use, McGraw Hill,
England, 1992
2. IEEE Std. 739-1995, IEEE recommended practice for energy
management in industrial and commercial facilities.
3. BEE Study Material, Energy Management & Energy Audit,
www.bee-india.com
ELE 3285: ENERGY CONVERSION TECHNOLOGIES [3 0 0 3]
(Not Applicable to Mechatronics)
Transformers - construction, operating principle, types, equivalent
circuit, voltage regulation, efficiency, auto-transformer, Three-phase
transformers - Construction, operating principle, types, emf equation,
armature reaction, equivalent circuit, power input & output expressions,
losses, efficiency & applications of AC Generators Induction Motors
three phase & single-phase - Synchronous Motors - power factor
correction DC Motors Special Machines Working principle & equivalent
circuits of stepper motors, switched reluctance motors, brushless dc
motor, ac & dc servo motors, universal motors, linear induction motor.
References:
1. I. J. Nagrath and D. P. Kothari, Electric Machines, Tata McGraw
Hill, New Delhi, 2001.
2. P. S. Bhimbhra, Electrical Machines, (3e), Khanna Publishers,
1984.
3. J. D. Edwards, Electrical Machines and Drives, Macmillan, UK
1991
ELE 3286: MICROCONTROLLERS [3 0 0 3]
(Not Applicable to E&C,I&CT, CSE ICE)
Introduction to microprocessors and microcontrollers, comparison,
embedded system and general purpose systems - The 8051
architecture, signal descriptions - Assembly language programming,
8051 instruction set, addressing modes. Programming using 8051
instruction set - Timer/ Counter: Programming 8051 timers, counter
programming. Serial communication: Basics of serial communication,
160
161
References:
1. Hanselman, Mastering MATLAB 7, Pearson Education 2005.
2. www.mathworks.com
ELE 3288: LIGHTING DESIGN [3 0 0 3]
Visible spectrum- psychophysics of vision-photometric quantitieslaws of illumination-point by point method of illuminance calcualtionsLight sources-luminaires-principles of light control elements-light
Intensity distribution diagram-evaluation of total flux-illuminance and
visual performance-Lumen method calculations-principles and
general requirements of interior & exterior lighting for different
applications-Lighting Design Examples- Energy and cost
effectiveness of lighting schemes.
References:
1. IESNA New York, Lighting Handbook, (10e), 2011
2. Jack L. Lindsey., Applied Illumination Engineering, (2e),
Fairmont Press, INC 1997
3. D. W. Durrant, Interior Lighting Design, (5e), Lighting Industry
Federation Limited, London 1977
4. J. B. de Boer and D . Fischer, Interior Lighting, (2e), Philips
Technical Library, 1981.