University Name
Home / Course Detail

Bachelor of Science in Electronics and Computer Engineering

Key Knowledge and Skills to be Acquired:

Electronic System Design

Embedded Systems & Programming.

Computer Networks & Communication.

Hardware–Software Integration.

Engineering Problem-Solving & Innovation.

Requirements

General Minimum Entry Requirements for Admission
Completed A-Level studies before 2014

Two principal passes with a total of 4.0 points from Two Subjects (Advanced Mathematics & Physics/ Chemistry) defining the admission into the respective programme (where A = 5; B = 4; C= 3; D = 2; E = 1). An applicant without a principal pass in Advanced Mathematics or Physics MUST HAVE a minimum of “C” grade at O-Level.


Completed A-Level studies after 2014

Two principal passes with a total of 4.0 points from Two Subjects: Advanced Mathematics/ Physics/ Physics-Chemistry /Chemistry/Computer Studies/ Computer Science, defining the admission into the respective programme (where A = 5; B = 4; C= 3; D = 2; E = 1). An applicant without a principal pass in Advanced Mathematics or Physics MUST HAVE a minimum of “C” grade at O-Level.


Equivalent Entry Qualification

Ordinary Diploma (NTA Level 6) in Telecommunication or Electrical or Electrical and Electronic or Electronics and Communications or Electromechanical or Mechatronics Engineering or Computer or Computer Science or Information Technology with at least GPA of 3.0 PLUS possession of a Certificate of Secondary Education Examination (CSEE) with four passes in Mathematics, Physics, Chemistry and any other subject.

Course description

The Bachelor of Science in Electronics and Computer Engineering is a multidisciplinary engineering programme that combines electronics, computer engineering, embedded systems, telecommunications, and intelligent computing. The programme equips students with the theoretical knowledge and practical skills needed to design, develop, test, and maintain modern electronic devices, computer systems, communication networks, and embedded technologies. Through laboratory work, engineering projects, and industrial training, graduates are prepared to solve real-world engineering challenges and contribute to innovation across industries such as telecommunications, manufacturing, healthcare, automation, and information technology.

Electronic Circuit Design

Computer Engineering & Embedded Systems

Communication & Networking

Software & Intelligent Technologies

Engineering Practice & Innovation