Explore Department – University of Information Technology & Sciences | UITS

Explore Department

About

DEPARTMENT OF EEE, UITS

Academic Strength:

The Department of Electrical and Electronic Engineering (EEE) at University of Information Technology and Sciences (UITS) offers the most extensive educational programs for undergraduate students. The program is guided by our outstanding faculty members among them a good portion hold PhDs and have conducted a substantial amount of research and gathered experience on teaching and research from different universities at home and abroad. Most of the faculty members of this department hold master’s degrees from nationally and globally reputed Universities. Faculty members along with students are actively working to enhance their own research field as well as to enhance the quality of students. Our faculty members “design” the courses considering current trends and the student background so as to blend what is collectively taught across different courses into a cohesive body of knowledge that prepares the students not just for today but to take on the developments that are likely to take place years ahead. What is laid in the courses is a solid foundation that prepares the individual student to pursue academic or industrial career with rigor and innovation. We have also implemented outcome based education [Spring-2019] to produce professionally competent graduates in the field of Electrical and Electronic Engineering and serve the society by addressing the challenges for a sustainable development.

Vision

To produce professionally competent graduates in the field of electrical and electronic engineering and serve the society by addressing the challenges for a sustainable developmen.

Mission

  1. To create a conducive academic environment achieving highest quality of education and cutting-edge research.
  2. To enhance student’s communication and leadership skills and their ability to use their engineering knowledge in a rapidly changing world by providing state-of-the-art resources.
  3. To produce socially responsible and morally upright graduates.

PEO and Mission Mapping

Mission Statement PEO1: PEO2: PEO3:
Mission1: conducive academic environment achieving highest quality of education and cutting-edge research
Mission 2: communication and leadership skills and ability to use their engineering knowledge
Mission 3: socially responsible and morally upright graduates

PEO and PLO Mapping

Program Learning Outcomes (PLO) PEO1 PEO2 PEO3
PLO 1: Engineering Knowledge
PLO 2: Problem Analysis
PLO 3: Design/development of Solutions
PLO 4: Investigation
PLO 5: Modern Tool Usage
PLO 6: The Engineer and Society
PLO 7: Environment and Sustainability
PLO 8: Ethics
PLO 9: Communication
PLO 10: Individual Work and Teamwork
PLO 11: Lifelong Learning
PLO 12: Project Management and Finance

Admission Requirements

Minimum 2nd division in both SSC and HSC with science background or five subjects in O – level and 3 major subjects (Math, Physics and Chemistry) in A – level education are required. The students who have completed under GPA system will have to have a minimum CGPA of 2.5. The O- and A- level students must have an average grade of B. Those having Diploma Engineering with CGPA 2.5 on the scale of 4.0 or minimum second division in Electrical / Electronic / Computer / Telecommunication / Power / Mechanical are eligible for admission with wavers in some courses as per decision of the departmental equivalence committee. University does not allow GED for any program. But the total exempted credits must not be more than 16 credits.

Grading System
Grading System (Letter Grading)

UITS follows the following Letter Grade and Grade Point system introduced by the UGC as a uniform grading system for all public and private universities:

Numerical Grade

Letter Grade

Grade Point

80% and above

A+

4.00

75% to less than 80%

A

3.75

70% to less than 75%

A-

3.50

65% to less than 70%

B+

3.25

60% to less than 65%

B

3.00

55% to less than 60%

B-

2.75

50% to less than 55%

C+

2.50

45% to less than 50%

C

2.25

40% to less than 45%

D

2.00

Less than 40%

F

0.00

 

1.     The Letter Grade A+, A, A-, B+, B, C+, C and D are considered as pass grades.

2.     F grade is considered as “FAIL” and in such cases students must go for improvement.

3.   After completion of every three semesters, Grade Sheets will be issued mentioning Letter Grade, Corresponding Grade Points, Credit Hours Attended and Earned, and semester GPA.

4.     In the Final Transcript, in addition to these, CGPA will be added.

5.     Numerical marks in Grade Sheet/Transcript will not be given.

Job Sectors in EEE

Job Sectors in EEE

With a degree in Electrical and Electronic Engineering (EEE) from UITS, you can build up your career in a wide range of sectors including:

  • Enterprises dealing with Electrical power generation, transmission and distribution.
  • Renewable Energy industry
  • Nuclear Power industry
  • Electrical Power Automation Technologies
  • Electrical design and installation
  • Product design (Design Engineer)
  • Technical sales Engineer
  • Marine industry- develop the engines of ships and deal with electrical and electronic engineering operations, maintenance, and repairs on generators, motors, transformers, and emergency power systems on all types of vessels, measurements and operations of the electrical power generation, distribution and consumer machinery.
  • Oil and gas industry- designing and maintaining electrical systems and components of refineries, quality control, safety and efficiency.
  • Automotive industry
  • Construction industry
  • Military and National security
  • Aerospace Industry- Designing interface that transfers electricity from engine to aircraft to designing and operating board-computers, guidance systems, communication systems and networks, radar and ground stations or even entire satellites.
  • Control and Instrumentation Sector- Production and operation control of industrial equipment such as boilers, turbines, generators, diesel, pumps, condensers, compressors, pressure vessels.
  • Microelectronics sector- design, manufacture, and use of microchips and microcircuits.
  • Space projects – Deep space communications, robust control systems, extra terrestrial GPS for navigation and positioning, imaging system .
  • Medical technology – contribution in launching several useful medical devices, like the echocardiogram, prosthetic devices, CT, MRI and PET imaging machines, ECG and blood pressure monitors, all based on electrical engineering principles.
  • Robotics – sensors, actuators, microprocessors and sophisticated feedback control systems.
  • Global Positioning System (GPS) technologies
  • Mobile networking
  • Information technologies and telecommunication
  • Cyber security system
  • Industry dealing with cell-phones, computers to refrigerators and heating systems.
  • Electronics industry
  • Fast-moving consumer goods industry
  • Pharmaceuticals industry
  • Railway industry
  • Utilities industry
  • Materials Industry-research, specification, design and development of materials to advance technologies.
  • Semiconductor Industry-manufacturing, process and fabrication, research and development of semiconductor materials.
  • Nanoscale Science and Technology
  • Organic Electronics Industry- design, synthesis, characterization, and application of organic small molecules or polymers.
  • Food sector- quality control & packaging
  • Imbedded Software development