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


Solar cells are a renewable way of producing electricity out of sunlight, without wearing out or consuming anything. We develop new types of solar cells from materials that have extraordinary absorption properties and therefore can be made very thin. Thin-film solar cells will become significant renewable resources for our sustainable energy supply in the near future.  It offers the most promising options for substantially reducing the cost of photovoltaic systems and allows high market penetration of solar electricity. Thin film solar cells are the new generation of solar cells that contain multiple thin film layers of photovoltaic materials. The thin film solar cells are also known as a thin film photovoltaic cell (TFPV). A thin semiconductor device deposited on a glass or plastic substrate creates thin-film solar modules. The thicknesses of thin film layers are less as compared to P-N junction 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    Solid State Controller of Drivers                                                        (Credit 3.0)

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)