Choose the Best Electrical & Electronic Engineering Degree Course Accredited by the Board of Engineers Malaysia (BEM)

Choose to Study Electrical & Electronic Engineering Degree Courses Accredited by the Board of Engineers Malaysia (BEM) in Malaysia at Top Private Universities

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Although the terms electrical and electronics engineering often are used interchangeably in academia and industry, electrical engineers have traditionally focused on the generation and supply of power, whereas electronics engineers have worked on applications of electricity to control systems or signal processing. Malaysian students interested to study electrical & electronic engineering should look for top private university with a proven track record, highly experienced lecturers, top notch engineering labs & facilities, solid internship programme and a degree that’s accredited by the Board of Engineers Malaysia (BEM).

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Study at the Best Private Universities in Malaysia for Electrical & Electronic Engineering that’s Accredited by the Board of Engineers Malaysia

My friend introduced me to EduSpiral. He gave me all the information on WhatsApp & helped me to apply. Chong Keat, Electrical & Electronic Engineering at Heriot-Watt University Malaysia

My friend introduced me to EduSpiral. He gave me all the information on WhatsApp & helped me to apply.
Chong Keat, Electrical & Electronic Engineering at Heriot-Watt University Malaysia

E&E is a very important part of our everyday life. The study of Electrical & Electronic Engineering can involve large amounts of power such as power and control engineering, large devices like power stations and electric vehicles or small amounts of power like computers, communications and information engineering and small devices including MP3 players, iPads and cell phones.

In order to succeed as an Electrical & Electronic Engineer in Malaysia, students should choose the best private universities in Malaysia to study Electrical & Electronic Engineering so that you can gain the necessary knowledge and skills. Students after SPM or UEC, should visit the universities’ campuses to look at the facilities and talk to the lecturers to gauge their experience.

The Electrical & Electronic Engineering degrees at the top private universities in Malaysia should be accredited by MQA and also the Board of Engineers Malaysia (BEM). Other than the academic quality of the universities, students must seriously consider the student environment. Research has shown that employers have rejected 56% of job interviewees because of the lack of skill in the English language.

Graduates with a strong command of the English language have also been found to earn 25% higher salaries and have faster promotions in their jobs. Therefore, in order to succeed, students should choose a private university with an English-speaking student environment to enhance their career competitiveness.

You may save a few thousand by going to a cheaper university with a non-English speaking environment, but remember, you will be getting 25% lower salary and slower promotion for the next 50 years of your work life.

Board of Engineers Malaysia Accreditation

The Engineering Degrees of these universities are accredited by the Board of Engineers Malaysia (BEM) which is a signatory to the Washington Accord. This accreditation ensures that Engineering Graduates will have the following benefits in countries who are signatories of the Washington Accord:

  • Opportunities to register as a Graduate Engineer with Board of Engineers Malaysia (BEM) or the relevant professional bodies in other countries who are signatories under the Washington Accord.
  • Pathways to becoming a Professional or Chartered Engineer.
  • Assurance that graduates are considered as having met international academic standards for engineering practice.

What is Electrical & Electronic Engineering?

EduSpiral took me on a campus tour & gave in-depth information to help me decide. Eugene Ong, Electrical & Electronic Engineering at UCSI University

EduSpiral took me on a campus tour & gave in-depth information to help me decide.
Eugene Ong, Electrical & Electronic Engineering at UCSI University

In general, electronics engineers focus on the electronic circuits which are at the heart of computer science, while electrical engineers are concerned with the large-scale transfer of electrical currents as a power source.

Electrical and Electronic Engineering is about the science and technology related to generating, distributing, storage and use of electrical energy for the benefit of mankind. It is the broadest and most dynamic of all engineering covering everything from micron-scale transistors to macro-scale network systems.

Think about how many items in your daily life we use power such as batteries, petrol motors or even solar panels. Electrical and Electronic engineers are involved in the analysis of existing systems whether electrical, electronic or computer systems and they are often involved in creating and designing new products and systems for manufacturing industries.

Electronics Engineering focuses on solid state devices and integrated circuits that enable the creation of devices such as cellular phones, miniature computers, solar powered devices, electronic controls for automotive and navigation systems in cars, home appliances, and a vast variety of other products for daily usage.

On the other hand, Electrical Engineering is a field of engineering that generally studies the designing, installation, manufacturing, maintenance and testing of electrical and electronic equipment.

Electrical engineers deal with everything related to electrical devices and systems, and the use of electricity. Electrical engineers design, develop, test and supervise the manufacture or installation of electrical equipment, such as power generating and transmission equipment, used for domestic, industry and business purposes.

Some of this equipment includes electric motors; machinery controls, lighting, and wiring in buildings; automobiles; aircraft; radar and navigation systems; and power generation, control, and transmission devices used by electric utilities.

But there is more to Electrical engineering than just that. Many advances in biomedicine were pioneered by electrical engineers, many software houses such as Microsoft employ electrical engineers and so do airplane manufacturers such as Boeing and Airbus. Most astronomical observatories employ Electrical engineers to design their telescopes, other optical instruments and do advanced signal processing.

Areas of Electrical & Electronic Engineering include:

I was not sure if I could handle engineering but after listening to EduSpiral, I was able to make the right decision. Jun Chung, Diploma in Electrical & Electronic Engineering at Asia Pacific University (APU)

I was not sure if I could handle engineering but after listening to EduSpiral, I was able to make the right decision.
Jun Chung, Diploma in Electrical & Electronic Engineering at Asia Pacific University

  • Electronics
  • Software
  • Hardware
  • Signal Processing
  • Communications
  • Computer Engineering
  • Power Electronics
  • Power Systems Engineering (including renewable energy)
  • Nanotechnology
  • Biomedical Imaging
  • Embedded Systems
  • Control

Their work includes the design and manufacture of electronics and electrical devices for a wide range of applications. They are also involved in consulting, the planning and operating of power systems and telecommunication networks, satellite communications, and biomedical engineering.

Electrical engineers may specialise in computer engineering, electronic engineering, lasers, power generation & transmission, biomedical engineering, integrated circuits and microwave & optic fibre communications.

Electrical engineers specialise in areas such as power systems engineering,  electrical equipment manufacturing communications, signal processing, and control systems or have a specialty within one of these areas—control systems or aviation electronics.

Many electronics engineers also work in areas closely related to computers. However, engineers whose work is related exclusively to computer hardware are considered computer hardware engineers.

Sample Electrical & Electronic Degree Subjects

Example of subjects at degree level:

Circuit Theory, Digital Electronics, Analogue Electronics, Mathematical Methods for Engineers, Electromagnetic Theory, Circuit Theory & Transmission Lines, Electronic Manufacturing Industry, Engineering Software & Applications, Electrical Power,  Data Communication & Networks,  Microprocessor Systems, Instrumentation & Measurement,, Electrical Machines,

Electronic Circuit Design , Power Electronics, Control Systems, Power Systems, VLSI Design, Digital Signal Processing, Digital System & HDLs  or  Embedded System Design, Mathematical Techniques for Electrical and Electronic Engineers, Signal Processing and Control Engineering, Power Supply Electronics, Software Engineering Design, Telecommunications, Fields Waves and Antennas, etc.

Electrical & Electronic Engineering Studies in Malaysia

My friend introduced me to EduSpiral. He gave me all the information on WhatsApp & helped me to apply. Chong Keat, Electrical & Electronic Engineering at Heriot-Watt University Malaysia

My friend introduced me to EduSpiral. He gave me all the information on WhatsApp & helped me to apply.
Chong Keat, Electrical & Electronic Engineering at Heriot-Watt University Malaysia

E&E is a very important part of your everyday life. The study of Electrical & Electronic Engineering can involve large amounts of power such as power and control engineering, large devices like power stations and electric vehicles or small amounts of power like computers, communications and information engineering and small devices including MP3 players, iPads and cell phones.

Electronics engineering deals with devices and systems that use small amounts of electrical energy to analyse, transmit and store information. Transmission of these electronic signals forms the basis of communications and the information technology industry, and includes the field of microelectronics and the use of silicon chip technology.

Do you have a mobile phone or a computer? Wireless communication and the Internet are just a few areas electrical engineering has helped flourish, by developing better phones, more powerful computers, and high-speed modems. As we enter the 21st century, the technology that surrounds us will continue to expand and electrical engineers are leading the way.

Various systems for communication between people both nearby and on the other side of the world have been developed and are constantly being improved and refined. This communication takes place using satellite, telephone, optical fibres and computer systems.

These systems are of vital importance in everyday communication, defence, transport, civil aviation & medical equipment such as the bionic ear, pacemakers and life support systems.

Electrical engineering is concerned with the basic forms of energy that run our world. Whether it’s gas, hydro, turbine, fuel cell, solar, geothermal, or wind energy, electrical engineers deal with distributing these energies from their sources to our homes, factories, offices, hospitals, and schools.

Electrical engineering is concerned with research, design, development, manufacture, installation, operation, maintenance and management of equipment, plant and systems within the electrical, electronic, communication and computer systems areas.

These activities can apply to electricity generation, transmission, distribution, electrical installations in buildings and on industrial sites, electrical equipment manufacture, instrumentation and control systems applications in industry, communications networks, electronic plant and equipment, and also the integration and control of computer systems.

Using math and science, electrical engineers come up with economical solutions for technical problems. They use scientific advancements to meet consumer and societal needs through commercial applications. Many electrical engineers develop new products. In the process they must consider several factors from specifying precise functional requirements, to designing and testing components, to evaluating the final design for safety, reliability, cost and effectiveness.

Beyond design and development some electrical engineers work in maintenance, testing or production. They may determine the cause of malfunctions, test products for quality or supervise production in factories. At the supervisory level, electrical engineers are usually in charge of major components or entire projects. Electrical engineers use computers extensively on the job. They control efficiency, monitor quality, simulate and test system operations and produce and analyze designs. Also adding new principles to the design process is nanotechnology.

Electrical engineers design, develop, test and supervise electrical equipments manufacturing process. They may work with a variety of electrical equipment including electric motors, communications systems, lighting and wiring in buildings, radar and navigation systems, machinery controls and power generation, transmission and control devices used by electric utilities. They may also design electrical systems for automobiles and aircraft.

Electronics and electrical engineers are often confused and the term can be used interchangeably. However, electrical engineers usually focus on the generation and supply of power while electronics engineers traditionally have worked on applying electricity principles to control systems or signal processing. Specialization areas for electrical engineers include electrical equipment manufacturing and power systems engineering.

Electronics engineering is a very diverse field and it is currently undergoing expansion as new applications are found for electronic equipment. This has led to the development of two relatively new fields of engineering – software engineering and mechatronics.

  1. Software engineers design and modify complex software systems and computer hardware. Mechatronics Engineering combines the disciplines of mechanical and electrical engineering. It is associated with the use of digital computers to control machines and processes. It is also used to create diverse products such as substitutes for human sensors and organs and computer controlled machine tools.
  2. Mechatronics Engineering is a rapidly developing field and as the world becomes steadily more technologically advanced it will be of increasing importance. Electronic engineers work for companies and government departments that design, construct, and test electronic devices (including computers) or that are involved with their installation.

Increase in Job Demand in Malaysia For Electrical & Electronics Engineers

The NKEA Communications Content & Infrastructure (CCI) The CCI sector spans a wide ecosystem, from content generation to networks, services and devices. In order to achieve a high-income economy, the continued development of the communications content and infrastructure sector is therefore fundamental.

It would be critical to ensure smart deployment of next generation infrastructure throughout the country and capitalize on opportunity to develop Telecommunications as an enabler to other sectors. Capital expenditure is estimated to amount to RM 51.5 billion over the 10 year period.

In a report conducted by IPSOS Business Consulting in 2012 on the E&E Sector Study on the Supply-Demand of Talent in Malaysia, it is found that there is a shortage of Electrical & Electronic Engineers in Malaysia.

The E&E sector is an important contributor to Malaysia’s economy as it is one of the 12 National Key Economic Areas (NKEA) in the country’s Economic Transformation Programme (ETP). There are 1,900 active E&E companies which provide employment to over 350,000 people.

In line with ETP projections, Malaysia’s E&E sector growth is expected to be robust

in the coming years. This growth will require a steady supply of skilled talent, both in numbers and in the appropriate skills-sets, to meet the present and future needs of the sector This gap is due to several factors that includes competition from other sectors and economies for the same talent pool, as well as the un-employability of graduates that reduces the pool of addressable talent

The sector also faces a situation of skills gaps, where adequately trained and skilled talent, both at entry and experienced levels are lacking. These are mainly in the areas of R&D and to some extent Engineering Support.

The report found that Fresh Graduates or Entry-level Talent Not Industry-Ready (lacks required skill-sets) therefore it is important for students to choose a university that is able to provide the necessary training and possess the experience to teach.

  • University’s curriculum do not meet specific industry needs
  • Graduates lack relevant industry exposure
  • Graduates do not have the required soft skills demanded by the industry
  • Curriculum / students do not fully embrace the importance of soft skills.
  • It is also reported in the Star newspaper that Communication Skills is the no. 1 soft skill employers look for and that graduates with good command of the English language obtain a 25% higher salary and increased opportunities for promotion.

The  IPSOS report identified eight key talent shortage areas in the E&E field and the areas in demand for E&E fresh graduates are found in 5 areas which are:

  1. IC Design Engineers
  2. Embedded System / Firmware Engineer
  3. Software Engineer
  4. Radio Frequency (RF) Engineers
  5. Product Design R&D Engineers

Where do Electrical & Electronic Engineers work in Malaysia?

People who specialise as electronics engineers may work in such industries as telecommunications, broadcasting, aviation, defence, robotics, computers, medical engineering or meteorology. Many electronics engineers are now finding more opportunities in entertainment, transport and telecommunications industries.

Data communications, mobile radio and the broader entertainment industry all require the input of electronics engineers. An example of one growth area is the use of satellites and cable systems in Pay Television.

Electrical power engineers work for companies and government departments that are involved with providing and using electrical power. Electrical engineers have made remarkable contributions to our world. They helped invent the computer, DSL, cellular phones, microchips, and solar panels–to name just a few examples.

DVD players, cellular phones, radio, television, computers, airplanes, space vehicles, cars, motorcycles, home appliances, life-saving medical equipment, computer games, and Martian battles fought with joysticks represent a mere sampling of the now familiar facets of life made possible with the input of electrical engineers.

The transport sector is employing more electronics engineers as the vehicles and the systems controlling them become more automated. Electronics engineers in the field of communications may be responsible for the operation of satellite television transmission, or for the smooth running of telephone switching exchanges.

Often these systems or operations are monitored using complicated panels of instruments. It is the responsibility of the electronics engineer to find and correct faults quickly and to ensure the smooth working of the operation.

Power Generation & Distribution Engineering provides electricity to our homes and to industry. It is concerned with planning, developing, testing, installing, using and maintaining power plants or stations that provide electric power.

It also deals with the transmission of that power to where it is needed – cities, towns, railway lines, large businesses and industry. Power engineers also conduct research on developing alternative power sources such as solar and wind energy.

Most electronic design is based on the use of computer aided simulation. Computer systems engineers may work in the private sector with computer manufacturing and service companies, business consulting firms, the information systems divisions of companies and a wide range of government activities.

Electrical, Electronic or Telecommunication Engineers work in industries like Semiconductor, Telecommunications, Manufacturing, Power, Electric, Microwave, Manufacturing, Automotive, Production, Medical Devices, Technical Consulting,

Ten key industry sectors employ electrical engineers, computer engineers, and computer scientists:

  • Aerospace
  • Bioengineering/Biomedical Engineering
  • Computers
  • Education and Research
  • Energy and Electrical Energy
  • Manufacturing
  • Semiconductors
  • Services and Other Professions
  • Telecommunications
  • Transportation and Automotive

Electrical & Electronic Engineer in Malaysia can find work in Multi-National Companies, SMEs or top local companies like Kimberley Clark, Western Digital, Intel, IBM, OSRAM Opto Semiconductors,  Agilent Technologies, Nokia, Nortel, Ericsson, Bosch, ON Semiconductor (SCG Industries (M) Sdn Bhd), WCM Power Sdn Bhd, Penang Seagate Industries,  Agilent Technologies Microwave Products (Malaysia) Sdn Bhd, Infineon Technologies, ENTHU TECHNOLOGY SDN BHD, OAG Group of Companies,  Abtus Singapore Pte Ltd, Jabil Circuit Sdn Bhd, Sinclair Knight Merz Sdn Bhd, IBIDEN Electronics Malaysia Sdn Bhd, Carsem (M) Sdn. Bhd. (S-Site), , T.A. Furniture Industries Sdn Bhd,  Singapore Epson Industrial Pte Ltd., Palm-Oleo (Klang) Sdn. Bhd., Emerson Process Management Asia Pacific Pte Ltd (Singapore), Mediatek Singapore Pte Ltd, Inari Technology Sdn Bhd (A Member of Inari Berhad Group), GLOBALFOUNDRIES Singapore, Cycle & Carriage Industries Pte Ltd (Singapore), Perodua Manufacturing Sdn Bhd, T & T Inspection and Engineering Sdn Bhd,  Top Glove Corporation Berhad, ASTRO ALL ASIA NETWORK PLC, API Solutions Sdn Bhd, ESCATEC Electronics Sdn Bhd, Toshiba Transmission & Distribution Systems Asia Sdn Bhd, Samtec Asia Pacific (M) Sdn Bhd., Fairchild Semiconductor (Malaysia) Sdn Bhd, O.Y.L. Manufacturing Company Sdn Bhd,  Siemens Malaysia Sdn Bhd, Mitsubishi Electric Asia Pte Ltd (Singapore), Acson Malaysia Sales & Service Sdn Bhd, Sonoco Products (Malaysia) Sdn Bhd and more.

You can work as Product Engineer, Project Engineer, Production Engineer, Design Verification Engineer, Research & Technology Engineer, Transmission Engineer, Global Material Composition Reporting Engineer, Substation Secondary Design, Control Engineer, MES Engineer, Staff Engineer (Standard Cell Design), CAD Drafter / Design Engineer (Generator Set), ASIC Verification Engineers, Pal Engineering & Services Sdn Bhd., IPQA Engineer,

20 replies »

  1. I got 3As spm and 3.5 above in matriculation. what courses do i need to pay more attention? can i take engineering?

  2. which university offer less fee? I scored 8As (1A+,6As,1A-) recently in SPM. Is there any chance for me to get full scholarship? tq

  3. I don’t know if its good or not to study electrical and electronic engineering degree at nilai university or not? Cause I have problem in money while Nilai could offer me full scholarship~~ Just that I don’t know is it suitable to study engineering course or not at there……If not, any other suggestions?

      • If you say so, I believe you and I will take Nilai university as my prior. If there is also any university which good also in engineering, scholarship available and daily expenses are not high,kindly inform me too….much appreciated,TQ

      • Sure, if there is a better deal, will let you know. However, to the best of my knowledge, for the quality and affordability, Nilai University is pretty good. When you visit or call Nilai University, you can look for Desmond, he is a very experienced and good counselor who can assist you. Tell him EduSpiral recommended you to find him. 🙂

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