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M.E Semester: 2

Electrical Engineering (Electrical Power System)

Subject Name: Advanced Power Electronics

A. Course Objective:

To review basic concepts of power electronics in the field of power control and drives To address the underlying concepts and methods behind Advanced Power Electronics To impart knowledge of power semiconductor technologies and their advancement in the field of power conversion.

B. Teaching / Examination Scheme

SUBJECT Teaching Scheme Total Evaluation Scheme Total

L T P Total Credit THEORY IE CIA PR. /

VIVO

CODE NAME Marks

Hrs Hrs Hrs Hrs Hrs Marks Marks Marks Marks

MEEPS-

203

Advanced

Power

Electronics 4 0 2 6 5 3 70 30 20 30 150

C. Syllabus

SR No. Unit

No Topic

No. of Hours

Approx.

Weightage

in Exam.

1 Unit:1 Introduction:

review of power semiconductor devices: Thyristor, IGBT, MOSFET, IGCT, GTO and their driver circuits, role of SiC in power semiconductor technology 6 10%

2 Unit: 2 AC-DC converter:

Uncontrolled rectifier, semi-controlled rectifiers, fully controlled rectifiers with R, RL and RLE load, effect of source inductance on performance of converter, firing schemes and circuits, MULTIPULSE CONVERTERS: Multi-pulse converters: 12,18 and 24 pulse converters, phase shifting transformers POWER FACTOR: power factor improvement techniques, PWM rectifiers: equal area PWM, sine PWM, Single Phase and

Three phase boost rectifier circuits

16 25%

3 Unit: 3 DC-AC converters:

Voltage Source Inverter: 120º and 180º conduction modes, PWM techniques of voltage fed converters: Selective Harmonic Elimination (SHE), sine modulation, Third harmonic injection, Hysteresis Current Control, Sigma-Delta Modulation, Space Vector Pulse Width Modulation: undermodulation and overmodulation and their implementation Current Source Inverter: Current Source inverters and their role in high power drives: Autosequential Current Fed inverter,

Pulse Width Modulation of CSI

Matrix converters: Three phase matrix converters and their control, basic input filter, protection of matrix converter

20 30%

4 Unit: 4 Multilevel inverters:

Diode Clamped MLI, Flying Capacitor MLI, Cascaded H-Bridge topology: operation with equal and unequal DC voltages, Carrier modulation schemes of multilevel inverter, SVPWM of Multilevel inverter, Neutral Point Balancing schemes 8 15%

5 Unit: 5 Advance Electrical Drives:

Brushless DC motor:

Sinusoidal and Trapezoidal BLDC motor, Electronic Commutator, Torque production in BLDC motor, Control of

Brushless DC drives

Switched Reluctance Motor:

Elementary Operation and Principle of operation, Modes of operation, Converter circuits for SRM: Asymmetric Bridge

Converter, R-Dump, Bifilar Type converter

10 20%

D. Instructional Methods

At the start of course, the course delivery pattern , prerequisite of the subject will be discussed Lecture may be conducted with the aid of multi-media projector, black board, OHP etc. Attendance is compulsory in lectures and laboratory, which may carries five marks in overall evaluation. Two internal exams may be conducted and average of the same may be converted to equivalent of 15 marks as a part of internal theory evaluation. Assignment based on course content will be given to the student for each unit/topic and will be evaluated at regular interval. It may carry an importance of five marks in the overall internal evaluation. Kadi SarvaVishwavidyalaya University Electrical Deptt. © 2013. KSV University. All Rights Reserved. Rev. 01 Surprise tests/Quizzes/Seminar/Tutorial may be conducted and having share of five marks in the overall internal evaluation. The course includes a laboratory, where students have an opportunity to build an appreciation for the concept being taught in lectures. Experiments shall be performed in the laboratory related to course contents.

E. Students Learning Outcomes

The student can identify different areas power conversion and related topology. Can find the applications of power electronics in day to day life.

F. Recommended Study Materials

Text &Reference Books:

1. Power Electronics Circuits, Devices, and Applications Hall of India Pvt. Ltd., New Delhi, 2nd edition, 1999 2.

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