Department of Electrical Engineering Syllabi for: M. Tech. in

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Department of
Electrical Engineering
Syllabi for:
M. Tech. in Electrical Engineering
(Power Electronics & Electrical Drives)
Effective from 2014-15
Indian School of Mines
Dhanbad-826004
Jharkhand, India
Page 1 of 7
Core Course Syllabi
(Effective from 2014-2015 Academic Sessions)
I-SEMESTER
Sl.
No.
1
2
3
4
5
6
7
Course No.
Name of Course
L
T P
AMC51101
MSC51153 (R)
EEC51101
Advanced Numerical Methods and Applied Statistics
Management Principles and Practices
Generalized Theory of Electrical 4 Elective-I
Elective-I
Elective-II
Electrical Machine Lab
Power Electronics and Drives Lab
Total
4
3
3
3
3
0
0
0
1
0
0
0
0
0
EEC51201
EEC51203
2
0
0
0
0
3
3
Credit
Hrs
10
7
6
6
6
3
3
41
I-SEMESTER
AMC51101 Advanced Numerical Methods and Applied Statistics
L-T-P: 4-0-2
Section A: Advanced Numerical Methods – Review of solution of system of linear
simultaneous equation. Solution of tri-diagonal system, III conditioned system and iterative
method to improve accuracy of an ill conditioned system. Evaluation of double and triple
integrals by numerical methods and its application, solution of non-linear simultaneous
equations, numerical solutions of integral equations, advanced method of interpolation, spline
interpolation, numerical solution of simultaneous first order ordinary differential equations
and higher order O.D.E. Initial and boundary value problems; Numerical solution of partial
differential equations; Laplace and Poisson equation; heat conductive and wave equations;
Writing computer program in the above methods.
Section B: Applied Statistics – Review of binomial, negative binomial, Poisson, normal and
log normal distribution. Test of significance of mean, variance, correlation and regression
2
coefficients; χ test of goodness of fit; attributes and contingency table; F tests, tests of
proportions, tests of significance under large sample approximation. Non-parametric tests:
Wald-Wolfowitz run tests, tests of randomness, median tests, sign tests, Mann-Whitney
Wilcoxon U-tests. Time series analysis, introduction to reliability and life testing experiments
in engineering problems. One way and two-way analysis of variance, Completely
Randomized Design (CRD), Randomized block Design (RBD), Latin Square Design (LSD).
MSC51153 (R) Management Principles and Practices
L-T-P: 3-1-0
Essentials of management functions. Human behavior at work – motivation, leadership,
training and development. Essentials of communications – types, barriers, presentation skill.
Financial management – sources of capital (long term and short term), financial statement
analysis, working capital management. Engineering economics – concept of time value of
money, capital budgeting techniques, replacement analysis, cost concepts, cost volume profit
analysis, characteristics and life cycle of a project. Project cost estimates, job costing.
Introduction to marketing management – concept and practice.
Page 2 of 7
EEC51101 Generalized Theory of Electrical Machines
L-T-P: 3-0-0
Principles of electromagnetic energy conversion; Energy state functions; Modelling of
electromechanical systems; Matrix methods and use of generalised circuit theory of
machines; Kron’s primitive machine; Reference frames; Different methods of transformation;
Impedance, torque and motional impedance matrix; Development of basic performance
equations and analysis of different rotating machines such as dc, induction and synchronous
machines; Short circuit and block diagram representation of dc machine; Steady state
equivalent circuit of induction motor; Dynamics and transients in electric machines;
Operational equivalent circuit, operational impedances, time constants, steady state operation,
phasor and block diagram representation of synchronous machine; Short circuit studies on
alternators; Relevant computer techniques for machine analysis, Modelling of special
electrical machines.
Elective-I & Elective-II
EEE51101 Power Electronics and Drives
L-T-P: 3-0-0
Review of modern power switching devices – Thyristor, GTO, MOSFET, BJT, IGBT and
MCT; Drive circuit and switching network for power switching devices; Boost and buck
converters using BJT and IGBT circuits; Thyristor and BJT based converter, phase control,
effect on power factor, harmonics, inverter circuit using BJT and MOS devices; PWM
technique for voltage and harmonic control.
Basic concepts, types of loads, characteristics and operating modes of drive motors; Starting,
braking and speed control of motors; Four-quadrant drives; Torque and associated controls
used in process industries; Application of solid state controllers such as choppers, rectifiers,
inverters and cycloconverters in drive systems, and their performance characteristics; Modern
trends in industrial drives and control; AC motor drives in transportation system and traction;
Electromagnetic control of motors.
EEE51105 Power Electronic Converters
L-T-P: 3-0-0
Switched Mode Power Supply: Types, operation, waveforms and design, transformer design
for power supplies, small signal analysis of DC-DC converters and closed loop control;
Resonant DC-DC converters: operating principle, waveforms, switching trajectory and losses
and control; PWM inverter modulation strategies: sine wave with third harmonic, space
vector modulation and predictive current control techniques, Dynamic braking circuit, input
side bidirectional power flow requirement for regeneration, Dual thyristor bridge and PWM
rectifier; Three level inverter: basic topology and waveform, improvement in harmonics and
high voltage application; Resonant ac link / dc link inverters; Cycloconverters: Circuit,
operating principle, control, harmonics, power factor and applications; Non-drive application
of power electronic converters: back to back HVDC transmission, induction heating,
electronic ballast, UPS, SVC and active filters. Industrial PWM driver chips for power
supplies such as UC 3843, 3825 or equivalent; Industrial gate driver chips for PWM voltage
source inverters with isolation and protection circuits. Intelligent power modules.
Page 3 of 7
EEE51106 Selected Topics of Electrical Machines
L-T-P: 3-0-0
Engineering and physical aspects of rotating electrical machines; Machine windings;
Winding analysis and MMF waveform; Space and time harmonics; Saturation; Unbalanced
magnetic pull and magnetic noise in machine; Inrush current and harmonics; Heating and
cooling; Multi-winding transformer; Induction motor operation on unbalanced and nonsinusoidal supply; Effect of space harmonics on induction motor performance; Two-phase
induction motor; Induction generator, control and applications; Use of electromagnetic
theory, performance of permanent magnet machine; Magnetic levitation; Superconductors
and applications; Condition monitoring of electrical machines.
EEE51104 Soft Computing Techniques
L-T-P: 3-0-0
Neural Networks: Overview of biological Neuro-system, Mathematical models of neurons,
ANN architecture, Learning rules; Learning paradigms - Supervised, Unsupervised and
Reinforcement learning; ANN training algorithms - perceptions, Training rules, Delta, Back
propagation algorithm; Multilayer perceptron model; Applications of artificial neural
networks; Competitive learning networks; Kohonen self organizing networks; Hebbian
learning; Hopfield networks; Associative memories; Boltzman machine; Fuzzy Logic:
Introduction to Fuzzy logic; Classical and Fuzzy sets: Overview of classical sets,
Membership function, Fuzzy rule generation; Operations on Fuzzy sets: Compliment,
Intersections, Unions, Combinations of operations, Aggregation operations; Fuzzy arithmetic:
Fuzzy numbers, Linguistic variables, Arithmetic operations on intervals and numbers, Lattice
of Fuzzy numbers, Fuzzy equations; Fuzzy logic: Classical logic; Genetic Algorithms;
Evolution Strategies; Evolutionary Programming; Genetic Programming; Selecting,
crossover, mutation, schema analysis, analysis of selection; Markov & other stochastic
models; Simulated Annealing; Tabu Search; Ant Colony based optimization.
EEE51105 Opto Electronics
L-T-P: 3-0-0
Principles of operation of photodiode, PIN diode, APD, Photo transistor and photo detectors,
CCD, Opto-coupler, Injection and recombination at pn-junction, LED; Lasers-theory, types,
characteristics; Polarization, induced optical effects - Kerr effect and Pockel effect –
applications; Interference, interferometers, Ring resonators; Fiber Optics – basic
characteristics, sensors - basic principle and operational details; Electrooptic and magnetooptic effect - applications, Fiber optic Gyro; Holography: principles, holographic recording
and readout devices, its application; Optical signal processing, Fiber Bragg grating (FBG) principles and applications; Introduction to Photonic-crystal fiber (PCF).
EEC51201 Electrical Machine Lab
L-T-P: 0-0-3
Experiments on electrical machines.
EEC51203 Power Electronics and Drives Lab
L-T-P: 0-0-3
Experiments on power electronics and drives.
Page 4 of 7
II-SEMESTER
Sl. No.
1
2
3
4
5
6
7
Course No.
EEC52101
EEC52102
EEC52103
EEC52201
EEC52204
Name of Course
Advanced Control Systems
Instrumentation
Design of Power Converters
Elective-III
Elective-IV
Control and Instrumentation Lab
Power Electronics and Drives Simulation Lab
Total
L
3
3
3
3
3
0
0
T
0
0
0
0
0
0
0
P
0
0
0
0
0
3
3
Credit Hrs.
6
6
6
6
6
3
3
36
II-SEMESTER
EEC52101 Advanced Control Systems
L-T-P: 3-0-0
Introductory matrix algebra and linear vector space; State space representation;
Linearization; Solution of state equations; Evaluation of state transition matrix; Similarity
transformation and invariance of system properties due to similarity transformations;
Minimal realization of transfer function; Discretization of a continuous time state space
model; Controllability and controllable canonical form; Pole assignment by state feedback
using Ackermann’s formula; Controllable canonical form; Linear Quadratic Regulator (LQR)
problem and algebraic Riccati equation; Observability and observable canonical forms;
Design of full order observer using Ackermann’s formula; observable canonical form;
Duality; Observer based controller design; Reduced order observer design; Internal stability
of a system; Stability in the sense of Lyapunov; Solution of Lyapunov type equation.
EEC52102 Instrumentation
L-T-P: 3-0-0
Measurement of voltage, current, phase angel, frequency, active power and reactive power in
power plant applications; Introduction and design of signal conditioning circuits for various
resistive, capacitive, inductive and piezoelectric transducer; Instrumentation amplifiers and
isolation amplifiers; Temperature measurement - RTD, thermocouple, thermistors, radiation
pyrometer; Optical instrumentation for electrical and mechanical quantities related to
electrical machines and power system applications; High energy arc ignition system and
flame monitoring; Measurement techniques for water quality parameters , conductivity;
Vibration transducer, magnetostrictive transducers, pressure and flow transducers, torque
transducers; position and speed transducers; DP transmitters, smart and intelligent
transmitters; Steam turbine instrumentation, flue gas analyser, hydrogen purity meter;
Introduction to feedback transducers; SCADA.
EEC52103 Design of Power Converters
L-T-P: 3-0-0
Design aspects of power electronic devices like UPS, SMPS, power factor converters, motor
control, lighting, AC to DC converters, DC to DC converters, inverters; Drive circuits for
power devices.
Magnetics for switched mode converters, thermal design for switched mode converters, current mode
control, controller designs, switched mode power supply circuits, regulation in isolated SMPS,
magnetic amplifiers.
Page 5 of 7
Elective-III & Elective-IV
EEE52101 HVDC Transmission and FACTs
L-T-P: 3-0-0
General aspects of DC transmission; Converter circuits and their analysis; DC link controls,
faults and abnormal operation and protection; Mechanism of active and reactive power flow
control; Basic FACTS controllers: SVC, STATCOM, TCSC, TCPAR, UPFC; Modelling of
FACTS controllers; System static performance improvement with FACTS controllers,
System dynamic performance improvement with FACTS controllers.
EEE52104 Data Communication and Management
L-T-P: 3-0-0
Introduction to communication systems: Significance and impact on distributed industrial
control and automation; Analog and digital communication - Modulation and demodulation
(AM, FM, PSK, FSK, PCM); Transmitters and receivers; Noise and bandwidth factors;
Synchronization; Communication media; Digital signal formats; Error detection; Correction
and recovery; Switching techniques; Overview of analog and digital telephone systems:
Basic configuration and standards, Digital PBX for voice and data communication; Wireless
communication: Radio, Microwave and Satellite communication; Application in telemetry;
Power line carrier communications: Interface equipment and communication standards; Local
area computer networks: Basic topologies, Layered architecture, Access techniques (CS/CD);
LAN technology: Ethernet, media, interface equipment, application, networking support in
UNIX; Client Server computing.
EEE52105 Microprocessor and Microcontroller
L-T-P: 3-0-0
16 bit microprocessor-8086 processor, architecture, Bus Interface unit and execution unit,
segmentation of memory, instruction set, assembly language programming, Interruptsoftware and hardware, priority of the interrupts; Standard peripherals and its interfacing.
Coprocessor, its internal architecture, its handshaking signals for main processor, Data
formats, stack registers, coprocessor instruction set; Bus Interface: ISA bus, the extended ISA
and VESA local bus, PCI bus, Parallel Printer Interface (LPT), Universal Serial Bus (USB),
Accelerated Graphics Port (AGP); Microprocessor based control: temperature / pressure /
flow / speed control - a case study; 32-bit processor (80386 and higher processor),
architecture, memory management unit, real address mode and virtual address mode,
protected mode of operation, 32 bit processor flags, privilege levels, paging mode of
operation; Pentium processor, its architecture, memory bank, data bus and its interfacing with
32 bit memory, new instructions, System timing, burst cycle method of memory read, Intel
chipset for Pentium processors; Asynchronous and synchronous data format and data transfer,
modems and its interfacing.
Pin out descriptions of 8051, Memory organization, Register Banks, special function
registers, External Memory: External code memory access, External data memory access,
Address decoding, Addressing modes of 8051, Instructions types.
EEE52106 Special Electric Machines
L-T-P: 3-0-0
Field aspects of electrical machines: Review of Maxwell’s equations and solution of
Laplace’s and Poisson’s equations, Concept of magnetic vector potential; Eddy current brake;
Page 6 of 7
Linear motors: Basic principle of operation and types; End effects & transverse edge effects;
Field analysis & Propulsion force; equivalent circuit.
Stepper motor: Basic construction and principle of operation; Synchronous inductor &
variable reluctance, Logic circuit for open loop & closed loop operation; modeling and
dynamic analysis.
Switched reluctance motor (SRM): Construction, importance of stator & rotor arc angles; Lprofile, position sensor & indirect rotor position sensing; torque expression, steady state and
dynamic performance.
Permanent magnet motor, Hysteresis motor, Reluctance motor, Disc motor, Brushless motor.
Special electrical machines associated with wind, solar, tidal wave, micro-hydel and other
non-conventional energy sources; Fractional horse power industrial motors.
EEE52107 Green Energy and Technology
L-T-P: 3-0-0
Definitions; Renewable energy technologies: First-generation technologies, Secondgeneration technologies, Third-generation technologies; Energy efficiency; Green energy:
Local green energy systems, sing green energy; Clean energy investments; Nuclear power;
Examples: Biofiltration, Biosphere Technology, Bioremediation, Desalination, Doubly-fed
electric machine, Energy conservation, Energy saving Modules, Hydroelectricity, Hydrogen
fuel cell, Ocean thermal energy conversion, Solar power , Thermal de-polymerization , Wind
power , Battery powered cars; Sustainable living; Sustainable energy.
EEE52108 Advanced Machine Drives
L-T-P: 3-0-0
Closed loop control of solid state dc drives; Scalar and vector control of induction motor;
Direct torque and flux control of induction motor; Self controlled synchronous motor drive;
Vector control of synchronous motor; Switched reluctance motor drive; Brushless dc motor
drive; Permanent magnet drives; Industrial drives.
EEC52201 Control and Instrumentation Lab
L-T-P: 0-0-3
Experiments on control and instrumentation. Use of software like MATLAB, LABVIEW,
etc.
EEC52204 Power Electronics and Drives Simulation Lab
L-T-P: 0-0-3
Experiments on simulation based power electronics and drives. Use of softwares like
MATLAB, PSIM, etc.
Page 7 of 7
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