MS Electrical Engineering

Objective

• To provide an advanced understanding of modern electrical power systems.

• To provide an advanced understanding of electronic materials design and operation of electronic devices, circuits and systems.

• To provide an in-depth understanding of the mathematical concepts underlying the design, analysis and operation of modern electronic, power and communication systems.

• To understand and resolve the power systems issue using smart grids, renewable energy resources and other modern available techniques.

• To impart quality education at par with international standards.

• To be commensurate with the need of the industry by providing professionals who are able to engage in the latest (theoretical and practical) R &D.

Role and Scope

The Master’s program aims to provide an avenue of higher learning to fresh graduating engineers and also to engineers already working in the field and industry. Moreover, it will incorporate the latest developments and research and contribute towards improving the quality of engineering teaching and instruction. The School of Electrical Engineering at TUF already has a well-established Bachelor’s program that has been producing quality engineering graduates since 2006. Currently the school has faculty members holding Doctorates and Masters Degrees from well-reputed universities. These faculty members possess extensive field, research and teaching experience. The faculty members are active in research work and have numerous publications in refereed research journals with impact factors. They also participate and present papers in national and international conferences, thereby keep abreast of the latest research work and also keeping in touch with the national and international research community. The Department has a number of well-equipped laboratories to support experimental work relating to Master’s projects. Various advanced software programs can be utilized by graduate students to carry out simulations, design-work and mathematical-modeling. The University has an excellent library that houses a very large number of Electrical Engineering books, both in paper and soft (digital) form. The library also has access to the HEC digital library. The School will also facilitate research work by providing graduate with access to IEEE explore and other prestigious research journals.

semesters and courses

  • Duration

    4 Semesters, 2 years

  • Eligibility

    Following is the eligibility criteria for admission in MS in Electrical Engineering program adopted by TUF. i. Four years of education (minimum 130 credit hours) after HSSC/A Level/Grade-12 or Sixteen years of schooling will be required for admission. ii. A candidate can be enrolled in MSEE program with Bachelors in Electrical Engineering with a minimum CGPA of 2.5 out of 4.0 or 60% marks. iii. Should have passed Graduate Assessment Test (GAT) organized by National Testing Service (NTS) / Entry test organized by university.

  • credit hours
    required

    141

 

Semester 1

Course Code Course Title Credit Hours
EE-501 Mobile & Wireless Communications 3(3-0)
EE-502 Antenna Theory and Design 3(3-0)
EE-503 Advanced Solid State Materials and Devices 3(3-0)
EE-504 Advanced Optical Communications 3(3-0)
EE-505 Advanced Electromagnetic Theory 3(3-0)
EE-506 Advanced Digital Communications 3(3-0)
EE=507 Advanced Power Electronics 3(3-0)
EE-508 Electronic Design Automation 3(3-0)
EE-509 Analog Integrated Circuits 3(3-0)
EE-510 RF Electronics 3(3-0)
EE-511 Advanced Techniques of Engineering Analysis and Design 3(3-0)
EE-512 HDL for Programmable Logic 3(3-0)
EE-513 Advanced Control Systems 3(3-0)
EE-514 Wireless Sensor Networks 3(3-0)
EE-515 Advanced Digital Signal Processing 3(3-0)
EE-516 Stochastic Processes 3(3-0)
EE-517 Advanced Digital Image Processing 3(3-0)
EE-519 Computer Networks & Distributed Systems 3(3-0)
EE-520 Advanced Electrical Machines 3(3-0)
EE-521 Power System Analysis 3(3-0)
EE-522 Power Generation and Transmission 3(3-0)
EE-523 Power Distribution 3(3-0)
EE-524 Energy Resources and Technology 3(3-0)
EE-525 Advanced Power System Protection 3(3-0)
EE-526 Power System Transients 3(3-0)
EE-527 High Voltage Engineering 3(3-0)
EE-528 Electrical Drives (AC/DC) 3(3-0)
EE-601 Mathematical Methods for Engineering Analysis and Design 3(3-0)
EE-602 Advance Research Topics 3(3-0)
EE-603 Special topics in Electrical Engineering 3(3-0)
EE-607 Waves Scattering Theory and Applications 3(3-0)
EE-608 Electrodynamics 3(3-0)
EE-609 The Methods of Moments 3(3-0)
EE-611 Passive Microwave Circuits 3(3-0)
EE-612 Active Microwave Devices &Circuits 3(3-0)
EE-613 Free Space Optics 3(3-0)
EE-614 Biomedical Applications of Electromagnetics 3(3-0)
EE-615 Advanced VLSI Design Techniques 3(3-0)
EE-616 Advanced Digital System Design 3(3-0)
EE-617 Micro Fabrication Processes 3 (3-0) 3(3-0)
EE-618 Adaptive Filter Theory 3(3-0)
EE-619 Intelligent Measurements and Instrumentation 3(3-0)
EE-620 Advanced Microprocessors & Interfacing Techniques 3(3-0)
EE-621 Satellite Communications 3 (3-0) 3(3-0)
EE-622 Sensors and Systems 3(3-0)
EE-623 Smart Grid System 3(3-0)
EE-624 Advanced Renewable Energy 3(3-0)