1. Motilal Nehru National Institute of Technology
Allahabad-211004
Electrical Engineering Department
A Comprehensive Examination
JEETENDRA PRASAD
(2015REE55)
Thesis Supervisor:
Prof. R. K. Tripathi
2. S.No Course Name with code Credit Grades Course coordinator
1. Electric Drives (EE-2203) 4 B+ Prof. Vineeta Agrawal
2. Advance Power Electronics
(EE-2204)
4 B+ Dr. Rajesh Gupta
3. Special Topic In Power
Electronics(EE-2225)
4 B Prof. Ravindra K.
Singh
4. Intelligent Control Of Drives
(EE-2226)
4 A Mr. Ravindra Nath Saw
5. Advance Power Electronics &
Drives Lab (EE-2252)
4 A Prof. Vineeta Agrawal
&
Prof. Ravindra K.
Singh
Course WorksCourse Works
3. Advanced Power Electronics
• Isolated & Non-Isolated DC – DC Converter
• DC – AC Converter
• AC – DC Converter
• AC – AC Converter
• Resonant converters
• Battery charging
3
4. Electric Drives
• Review of classical speed control methods for DC motors
• classical speed control methods for induction motor
• single phase fully controlled rectifier fed dc separately excited
motor
• single phase half controlled rectifier fed dc separately excited
motor
• Chopper control dc drives
• variable reluctance motor drives
• Variable frequency control of ac drives
- By inverter
- By cyclo-converter
4
5. Special Topic In Power Electronics
• Basic Magnetics Theory
• Filter Inductor Design
• Transformer Design
• Resonant Converter
• State Plane Analysis, Averaging
• Soft Switching In Resonant Converters
5
6. Intelligent Control Of Drives
• Fuzzy Sets and Membership Functions
• Classical Sets and Fuzzy Sets
• Neural Network layers
• Back Propagation Algorithm
• Types of learning Methods
• Modeling And Simulation Of Induction Motor
6
7. Advanced Power Electronics & Drives
Lab
• To study the Zero Current Source (ZCS) Resonant converter.
• To design a flyback converter and study its characteristics.
• To design a push pull converter and study its characteristics.
• To design forward converter & study its characteristics.
• To design a SEPIC converter & study its characteristics.
• To design a suitable single-phase three level inverter as follows Full bridge (H-
bridge), (b) Neutral point clamped (Diode clamped)
• To design a three-phase neutral point clamped three-leg line frequency inverter.
• To test the performance of Micro-controller based reversible regenerative DC drive
using 4-quadrant MOSFET based chopper.
• To perform slip power recovery using thyristorised Rectifier Bridge converter for
wound rotor induction motor
• To determine the speed-torque characteristics of single-phase AC motor using
thyristorised AC voltage controller with open loop and closed loop control
• To control the given 3-phase induction motor using inverter module and SCR AC
regulator module with PC interface.
• To control the speed of BLDC motor using pulse width modulation (PWM) 7