Department of Electrical & Electronic Engineering
Postgraduate Study Programs
The postgraduate program has a vigorous, rapidly expanding program of
advanced study and research in the areas of Power system planning, Energy
conversion, Optical fiber communication, Digital signal processing, Power
semiconductor circuits, Industrial drives, MOS devices, Microwave theory and
techniques, Laser theory, Artificial intelligence and neural network etc. These
postgraduate programs lead to the degree of Master of Science in Electrical and
Electronic Engineering and Doctor of Philosophy in Electrical and Electronic
Engineering. To be awarded an M. Sc. degree, a student should have to
complete 36 credit hours of which a maximum of 09 credit hours of project
work or 18 credit hours of thesis work. The degree requirement for PhD is 60
credit hours of which maximum of 45 credit hours is thesis.
Research Facilities
The Department of Electrical and Electronic Engineering has many advanced
instruments and equipment with laboratories for study of various Electrical and
Electronic Engineering problems.
At present the Electrical and Electronic Engineering Department has following
Research Laboratory:
Advanced Power System Laboratory
Following are some objective of this Lab:
1.) How to design and perform highly detailed simulation of power systems, and to emulate the behavior of power system devices in different time-scales.
2.) How to conduct research and educational activities in the areas of Smart Grids with changing environment resulting from the dramatic increase in deployments of renewable and distributed energy.
3.) How to carry on distributed control and information exchange in the power system elements using compatible communication protocol (for example, IEC61850).
Renewable Energy Lab: Solar Energy - Thin Film Solar Cells
SUMMARY OF COURSES
The M. Sc Engg Students must have to take the course EEE
6000 M. Sc Engg. Thesis of 18 credits and the M. Eng. Students must have to
take the course EEE 6000.M. Eng. Project of 6 credits.
EEE 6001 Engineering
Analysis (Credit 3.0)
Electrical Machines
and power Electronic
EEE 6101 Generalized Machine Theory (Credit
3.0)
EEE 6103 Special Electrical Machines (Credit
3.0)
EEE 6105 Computer Aided Electrical Machine (Credit
3.0)
EEE 6107 Physical phenomena in Machines (Credit
3.0)
EEE 6109 Power Electronics Devices and D.C. Converters
(Credit 3.0)
EEE 6111 AC Controller (Credit
3.0)
EEE 6113
EEE 6115 Static Compensation in Power System (Credit
3.0)
EEE 6117 Optimization Methods for Computer – Aided
Design (Credit 3.0)
EEE 6119 Energy Conversion and generalized Machine
Theory (Credit 3.0)
POWER SYSTEM
EEE 6201 Computer Methods in power system Analysis (Credit 3.0)
EEE 6202 Modern power System Modeling (Credit
3.0)
EEE 6205 Reliability of power system (Credit
3.0)
EEE 6207 Power System Stability (Credit
3.0)
EEE 6209 Transients in power System Operation (Credit
3.0)
EEE 6211 Optimization of power system operation (Credit
3.0)
EEE 6213 Advanced Protective Relays (Credit
3.0)
EEE 6215 Energy System planning (Credit
3.0)
EEE 6217 Non-conventional Electrical Energy Resources
(Credit
3.0)
EEE 6219 Advanced direct Energy Conversion (Credit
3.0)
EEE 6221 Power System operation and Control (Credit
3.0)
EEE 6223 Renewable Energy Conversion (Credit
3.0)
EEE 6225 Environment Development and Technology (Credit
3.0)
EEE 6227 High Voltage Engineering (Credit
3.0)
EEE 6229 Energy Engineering (Credit
3.0)
CONTROL SYSTEMS
EEE 6301 Nonlinear Control (Credit
3.0)
EEE 6303 Sampled Data Control System (Credit
3.0)
EEE 6305 Modern Control Theory (Credit
3.0)
EEE 6307 Microprocessor Based Industrial Control (Credit
3.0)
ELECTRONICS
EEE 6401 VLSI Technology and Device Modeling (Credit
3.0)
EEE 6403 VLSI Design (Credit
3.0)
EEE 6405 MOS Devices (Credit
3.0)
EEE 6407 Compound Semiconductor Devices (Credit
3.0)
EEE 6409 Testing VLSI Circuits (Credit
3.0)
EEE 6411 Electronics of Solids (Credit
3.0)
EEE 6413 Biomedical Electronics (Credit
3.0)
COMMUNICATION
EEE 6501 Information and coding Theory (Credit
3.0)
EEE 6503 Advanced Telecommunication (Credit
3.0)
EEE 6505 Optical Fiber Communication (Credit
3.0)
EEE 6507 Laser Theory (Credit
3.0)
EEE 6509 Applied EM Theory (Credit
3.0)
EEE 6511 Microwave Theory and Techniques (Credit
3.0)
EEE 6513 Antennas and propagation (Credit
3.0)
EEE 6515 Microwave Theory and Techniques (Credit
3.0)
EEE 6417 Digital and Satellite Communication (Credit
3.0)
EEE 6419 Micro wave Engineering (Credit
3.0)
INTER DISCIPLINARY
COURSES
EEE 6601 Image Processing (Credit
3.0)
EEE 6603 Digital Signal Processing (Credit
3.0)
EEE 6605 Artificial Intelligence (Credit
3.0)
EEE 6607 Electric and Magnetic Properties of
Materials (Credit
3.0)
EEE 6609 Microwave theory and Techniques (Credit
3.0)
EEE 6611 Selected Topics in Electrical & Electronic
Engineering (Credit
3.0)