BTech 2nd year syllabus ECE.doc
... cycloconverters; Electric drives: introduction and classification. DC motor drives
: speed-torque characteristics of shunt, series, PMDC motors; dynamic models; ...
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B.Tech EEE Sylabus Mathematical Methods in Electrical Engineering EC - 322 3-0-0-6 Topics in matrix theory: Elementary canonical forms: digitalisation,
triangulation, primary and secondary decompositions, Jordan canonical forms
and applications. Introduction to optimization theory: The optimization
problem and illustrative examples; necessary and sufficient conditions for
optima; convex sets, convex functions, optima of convex functions;
constrained minimization- linear and non-linear constraints, equality and
inequality constraints, optimality conditions, Karush Kuhn Tucker
optimality conditions; unconstrained optimization- steepest descent, Newton
and quasi Newton methods, conjugate direction methods. Calculus of
variation- The method of variations in problems with fixed boundaries,
Variation of a functional, Euler's equation, functionals involving
derivatives of higher order, optimal control as a problem of variational
calculus. Texts/References
1. K. Hoffman and R. Kunz, Linear Algebra, Prentice Hall India, 2001.
2. J.Luenberger D.G. Introduction to Linear and Nonlinear Programming,
2/e, Addison Wesley, 1984.
3. J. L. Troutman, Variational Calculus and Optimal Control: Optimization
with Elementary Convexity, 2/e, Springer Verlag, 1996.
Advanced Control Systems EC - 351 3-0-0-6 Frequency response design: Design of lag, lead, lag-lead and PID
controllers, the Nyquist criterion, analysis and design, relative stability
and the Bode diagram, closed-loop response, sensitivity, time delays; Root
locus design: construction of root loci, phase-lead and phase-lag design,
PID controller design; Modern design: controllability and observability,
state feedback with integral control, reduced order observer; Optimal
control design: Solution-time criterion, Control-area criterion,
Performance indices, Zero steady state step error systems; Modern control
performance index: Quadratic performance index, Ricatti equation; Digital
controllers: Use of z-transform for closed loop transient response,
stability analysis using bilinear transform and Jury method, deadbeat
control, Digital control design using state feedback; On-line
identification and control: On-line estimation of model and controller
parameters. Texts
1. G. F. Franklin, J. D. Powel and A. E. Emami-Naeini: Feedback Control of
Dynamic Systems, Prentice Hall Inc. 2002.
2. M. Gopal: Control Systems, 3/e, Tata McGraw Hill, 2008. References
1. M. Gopal: Digital Control and State Variable Methods, Tata McGraw Hill,
2003.
2. K. J. Astrom and T. Hagglund: Advanced PID Control, ISA, Research
Triangle Park, NC 27709, 2005.
Electrical Machines EC - 380 3-0-0-6 Magnetic circuits and transformer including 3-phase transformers; modeling
of D.C. machines; phasor diagram of cylindrical rotor and salient pole
machines- electromagnetic and reluctance torque, response under short
circuit conditions; modeling of induction machines- derivation of
equivalent circuits, dynamics under load change, speed reversal and
braking, unbalanced and asymmetrical operation; single phase induction
motor and applications in domestic appliances; modeling of synchronous
machines - equivalent circuit, d-q transformations, short circuit studies
in synchronous machines; variable reluctance, permanent magnet, stepper
motors and their applications. Texts
1. Stephen Chapman, Electric Machinery Fundamentals, McGraw-Hill, 4/e,
2003.
2. R. K. Rajput, Electrical Machines, 3/e, Laxmi Publications (P) Ltd.,
2003. References
1. I. L. Kosow, Electrical Machinery and Transformers, 2/e, Prentice- Hall
of India Pvt. Ltd., 2003.
2. B. S. Guru and H. R. Hiziroglu, Electrical Machinery and Transformers,
3/e, Oxford University Press, 2003.
Electrical Machines Laboratory EC - 381 0-0-3-3 Open circuit and short circuit tests of single phase transformer, three
phase transformer connections, open circuit test and load characteristics
of DC generator, speed control and output characteristics of DC motor, no
load, blocked rotor and load tests on induction motor, open circuit and
short circuit tests of an alternator. Texts/References
1. Stephen Chapman, Electric Machinery Fundamentals, 4/e, McGraw-Hill,
2003.
2. R. K. Rajput, Electrical Machines, 3/e, Laxmi Publications (P) Ltd.,
2003.
Electrical Power Systems EC - 382 3-0-0-6 Generation of electrical energy: Basic structure of power system; demand
of electrical system - base load, peak load; controlling power balance
between generator and load, advantages of interconnected system; Thermal
power plant - general layout, turbines, alternators, excitation system,
governing system, efficiency; Hydel power plant - typical layout, turbines,
alternators; Nuclear power plant - principle of energy conversion, types of
nuclear reactors; brief overview of renewable energy sources. Transmission
of electrical energy: Evaluation of Transmission line parameters- types of
conductors, representation of transmission line, inductance calculation of
single/three phase lines, concept of GMD and GMR, transposition of lines,
bundled conductors, skin effect, proximity effect, capacitance calculation
of single/three phase lines, effect of earth on calculation of capacitance,
line resistance, line conductance; Analysis of transmission lines -
representation, short/medium/long transmission lines, nominal T/? network,
ABCD parameters, surge impedance, Ferranti effect, power flow through a
transmission line, reactive power compensation of transmission line; corona
loss; Insulators for overhead transmission lines - types of insulators,
string efficiency, methods to improve string efficiency; Insulated cables -
insulating material, grading of cables, capacitance of single/three core
cable, dielectric loss; methods of grounding; Transient analysis -
travelling waves, reflection and refraction, lattice diagram; mechanical
design of transmission line. Distribution of Electrical Energy: D.C and
A.C. distribution, radial and ring main distribution, medium voltage
distribution network, low voltage distribution network, single line
diagram, substation layout, substation equipments. Texts
1. L. M. Faulkenberry and Walter Coffer, Electrical Power Distribution and
Transmission, 2/e, Pearson Education Inc., 2007.
2. S. N. Singh: Electric Power Generation, Transmission and Distribution,
Prentice-Hall, 2007. References
1. J. D. Glover, M. S. Sarma and T. J. Overbye, Power System Analysis and
Design, 4/e, Thomson Learning Inc., 2007.
2. James Green and R. Wolson, Control and Automation of Electric Power
Distribution System, Taylor and Francis, 2006.
3. B. Sorensen, Renewable Energy, Academic Press, 2/e, 2000.
4. Tarun Gonen, Electric Power Distribution System, McGraw-Hill, 1986.
5. W. D. Stevenson, Elements of Power System Analysis, McGraw-Hill, 4/e,
1982.
6. D. P. Kothari and I. J. Nagrath, Modern Power System Analysis, McGraw-
Hill, 2006.
POWER ELECTRONICS AND DRIVES EC - 385 3-0-0-6 Power Semiconductor Devices: Diode, BJT, MOSFET, SCR, Triac, GTO, IGBT,
MCT and their V-I characteristics, ratings, driver circuits, protection and
cooling; AC-DC Converters (Rectifiers): Diode rectifier, thyristor based
rectifier, effect of source inductance, single/three phase rectifiers,
semi/full rectifiers, power factor, harmonics; DC-AC Converters
(Inverters): Concept of switched mode inverters, PWM switching, voltage and
frequency control of single/ three phase inverters, harmonics reduction,
other switching schemes - square wave pulse switching, programmed harmonic
elimination switching, current regulated modulation switching - tolerance
band control, fixed frequency control; voltage source inverter (VSI),
current source inverter (CSI); DC-DC Converters (Chopper): Principle; buck,
boost and buck-boost converters; AC Voltage Controllers: Principle of ON-
OFF control and phase control, single/three phase controllers, PWM AC
voltage controller, cycloconverters; Electric drives: introduction and
classification. DC motor drives: speed-torque characteristics of shunt,
series, PMDC motors; dynamic models; speed and position control methods; AC
motor drives: d-q model of induction motor; constant flux speed control
structure; vector control model; vector control structure. Texts
1. N. Mohan, Power Electronics- Converters, Applications and Design, 3rd
Ed., John Wiley & Sons, 2003.
2. G. K. Dubey, Fundamentals of Electrical Drives, Narosa Publishing
House, 2003. References
1. M. Rashid, Power Electronics- Circuits, Devices and Applications, 3rd
Ed., Prentice Hall, 2004.
2. B. K. Bose, Modern Power Electronics and AC Drives, Pearson Education,
2003.
3. A. M. Trzynadlowski, Introduction to Modern Power Electronics, John
Wiley & Sons, 1998.
4. M. Rashid, Power Electronics Handbook, Academic Press-Elsevier, 2001.
Electrical Power System Operation and Controls EC - 480 3-0-0-6 Power system analysis: modeling of power system components - integrated
operation of power systems, load flow studies, economic load dispatch, load
frequency control, automatic generation control (AGC), power system
stability; Power system protection: Symmetrical components, fault analysis,
switchgear, fuses, circuit breakers and relays. Economics of power supply
systems: Economic choice of conductor size and voltage level, maximum
demand and diversity factor, tariffs, power factor correction; Introduction
to high voltage DC transmission (HVDC), flexible AC transmission system
(FACTS), supervisory control and data acquisition (SCADA). Texts
1. D. P. Kothari and I. J. Nagrath, Modern Power System Analysis, McGraw-
Hill, 2006.
2. P. Kundur, Power System Stability and Control, McGraw-Hill, 1995. References
1. Narain G. Hingorani and Laszlo Gyugyi, Understanding FACTS, Wiley-IEEE
Press, 1999.
2. Jos Arrillaga, High voltage direct current transmission, IEE Power
Engineering Series, 2/e, 1998.
3. A. J. Wood and B. F. Wollenberg, Power Generation Operation and
Control