Apply Now

Contact Us


Bachelor in Electrical & Electronic

This programme is specifically designed to provide:

Admission required:


Graduates of APU Bachelor of Engineering in their respective programs are expected within five years of graduation to attain the following programme educational objectives.

An Electrical Engineer may be responsible for research, design , development, manufacturing and management of complex hardware and software systems and reliable, cost effective devices, many involving the use of new information and computer intensive technologies. These include.


The students, upon completion of their study, should attain the following outcomes.

Year 1

These modules provide an appropriate platform for an Engineering Professional to understand the basic principles of engineering in the areas of Circuit Analysis, Engineering Materials, Engineering Statics & Dynamics and Engineering Design. In addition, a thorough grounding in principles of IT and management are provided by the Programming and Management modules. Modules such as Engineering Mathematics and Introduction to Management provide the basic academic skills required to meet the demands of employers. Important and relevant skills for managing activities and for your own independent learning are also introduced

Commomn Modules

Analysis of Circuits

Engineering Materials

Introduction to Management

Engineering Mathematics 1

Introduction to C Programming

Engineering Mathematics 2

Instrumentation & Measurement

Engineering Design

Specialised Modules

Engineering Statics & Dynamics

In addition to the above, all students are also required to successfully complete General Studies modules as stipulated by the Malaysian Qualification Agency, as well as fulfill credit requirements for Co-Curricular Activities

Year 2

Here, you start specialising in modules that develop the necessary underlying knowledge and skills in Electrical and Electronics Engineering. Further, in-depth Electrical and Electronic skills are developed here with modules such as Electromagnetic Field Theory, Engineering Software & Applications, Analogue Electronics, Digital Electronics, Signals & Linear Systems, Electrical Machines 1& 2 and Electrical Power Utilisation. Engineering Mathematics is provided for the better understanding of the engineering modules.

Common Modules

Analogue Electronics

Engineering Mathematics 3

Electromagnetic Field Theory

Digital Electronics

Engineering Software & Applications

Signals & Linear Systems

Specialised Modules

Electrical Machines 1

Electrical Power Utilization

Electrical Machines 2

Year 3

Specialised knowledge and skills in the areas of Control Engineering, Communication Engineering Principles, Multimedia Applications, Computer Architecture, Microprocessor Systems & Embedded Software, Digital Signal Processing, Numerical Methods & Statistics, Power Electronic & Drives, Power System Analysis and Generation, Transmission & Distribution of Electrical Power are a critical focus of this level. There is further development of the ability to apply relevant engineering skills with strong critical thinking and analysis.

Common Modules

Control Engineering

Communication Engineering Principles

Multimedia Applications

Computer Architecture

Numerical Methods & Statistics

Microprocessor Systems & Embedded Software

Specialised Modules

Power System Analysis

Generation, Transmission & Distribution of Electrical Power

Power Electronics & Drives

Electives (Choose 1)

Digital Signal Processing

Product Creation Technology


Industry placement with a suitable organisation for a minimum period of 12 weeks, after completing Year 3 and before the commencement of Year 4.

Year 4

The final year Engineering modules provide the necessary industry application technological skills which will become very useful for employment upon graduation. These modules include, VLSI Design, Analogue Integrated Circuits & Systems, and High Voltage Engineering. Your personal and professional development is enhanced by the module in Engineer in Society and Engineering Project Management. You will enhance your technical capability and understand how to innovate, generate and manage the creation of new ideas.

The Project Phase I (Investigation) in Electrical and Electronics Engineering will enable students to take on R&D with commercialisation. The Electrical and Electronics Engineering Project Phase II (Implementation) also develops the academic and practical aspects of your chosen areas of study and reinforces your independent learning skills. This is where you will demonstrate higher level critical thinking, analysis and solutions development skills which will enhance your employability.

Common Modules

Engineering Project Management

Project Phase I (Investigation)

Project Phase II (Implementation)

Group Engineering Design Project

Engineer in Society

Specialised Modules

High Voltage Engineering

Analogue Integrated Circuits & Systems

Electives (Choose 1)

VLSI Design

Optical Communication and Networks


From geographical information systems that can continuously provide the location of a vehicle to giant electric power generators, electrical and electronics engineers are responsible for a wide range of technologies. A degree in Electrical & Electronics Engineering offers challenging opportunities over a wide range of activities from research and design to operations, management and planning. Career choices are in diverse areas such as Power Systems, Electrical equipment manufacturing and testing, Biomedical Engineering and Computer Systems Engineering and also as technical experts on engineering projects in the Banking and Finance Industry.

Apply Now !