The Bachelor of Systems Engineering in Electrical Engineering is designed to equip students with comprehensive knowledge of electrical systems, circuit design, power electronics, and embedded systems. The program integrates theoretical foundations with practical applications, preparing graduates for careers in industries such as power generation, telecommunications, automation, and embedded systems design.

Upon successful completion of the program, graduates will be able to:

1. Design and analyze electrical circuits, power systems, and embedded technologies.
2. Apply problem-solving techniques to real-world electrical engineering challenges.
3. Develop expertise in industrial automation, power generation, and smart grids.
4. Implement renewable energy technologies for sustainable electrical solutions.
5. Utilize modern engineering tools, simulation software, and IoT-based systems.
6. Demonstrate leadership and ethical responsibility in engineering projects.

• Applicants to the degree programme must have successfully completed, and must have normally achieved a high school diploma or equivalent qualification.
• Background in mathematics and physics is recommended.
• Applicants who have obtained a Higher National Diploma of equivalent content and standard (level and credits) from another institution will be considered for admission to Stage 3 (top up bachelor in BSE) under the Recognition of Prior Learning Policy. Such applicants may apply for exemptions to some or all of Stages 1, 2 and directly eligible to apply BSE Top up. They must have completed a minimum of 240 credits (or equivalent) at HND level (Level 4/5 at RQF Level) in equivalent education content and similar level of credits) of relevant accredited prior learning. Such candidates must supply all supporting documentation at the time of application.

The Bachelor of Systems Engineering in Electrical Engineering program consists of 180 credits, divided into core courses and a final-year project report. Each subject is worth 6 credits, while the capstone project report accounts for 18 credits. The course structure is as follows:   

Summary of Courses

• Core Courses: 27 courses (162 credits)
• Capstone Thesis: 1 project (18 credits)

What you will Study

1. Introduction to Systems Engineering
2. Fundamentals of Electrical Circuits
3. Engineering Mathematics
4. Digital Electronics
5. Signals and Systems
6. Microprocessors and Embedded Systems
7. Electromagnetic Fields and Waves
8. Electrical Machines
9. Analog Electronics
10. Control Systems
11. Power Electronics
12. Renewable Energy Systems
13. Communication Systems
14. Electric Power Generation and Distribution
15. Industrial Automation and Robotics
16. Internet of Things (IoT) for Electrical Engineers
17. Instrumentation and Measurements
18. Energy Storage and Smart Grids
19. Electrical System Design and Simulation
20. Embedded Systems and FPGA Design
21. Wireless Communication
22. Advanced Power Systems
23. AI and Machine Learning in Electrical Engineering
24. High Voltage Engineering
25. Project Management for Engineers
26. Research Methodology
27. Professional Ethics and Industry Standards
28. Final Year Project (Capstone Project)

To successfully complete the Bachelor of Systems Engineering in Electrical Engineering, students are expected to:

• Dedicate approximately 15-20 hours per week to coursework, including readings, assignments, and discussions.
• Actively participate in online forums, webinars, and collaborative projects.
• Complete all assignments, exams, and the capstone project within the stipulated deadlines.
• Maintain regular communication with faculty and peers to enhance learning outcomes.
• Exhibit strong self-discipline and time-management skills to balance studies with other commitments.

• 90% Assignments
• 10% Presentation and viva
• At the end of the program each student also submits a research project paper

All of the following items must be submitted on or before the application closing date. They may be submitted online.

• CV (maximum 2 pages).
• Passport size photograph
• A personal statement of approximately 350 – 400 The personal statement should focus on the applicant’s interest in electrical engineering, how they expect the programme will impact on their career and how they plan to balance their work, life and study commitments.
• Copies of O/A Level certificate (or equivalent) certificate diploma or degree parchments, as well as transcripts of associated
• Applicants whose first language is not English must submit the original certificate of completion of an English

Students apply to the KIMT online application system. To apply, simply click on and follow the instructions. A non-refundable application fee applies. The application fee is paid online. Further information about applications, contact at admissions@kimtuniversity.com