Best Telecommunications Engineering Course at Top Universities in Malaysia Accredited by Board of Engineers Malaysia (BEM)

Written by EduSpiral Consultant Services For more information contact 01111408838

Students can consider studying Telecommunications Engineering Degree Programme at Multimedia University (MMU), Asia Pacific University (APU) or UCSI University which are recognised by the Malaysian Ministry of Education. Their courses  are accredited by MQA and the Board of Engineers Malaysia (BEM). These top ranked private universities are very established in offering engineering programmes in Malaysia and have more than 20 years of experience and are the best universities in this field of study. Students wanting to have a good future in their career should choose the best university to study at so that they can gain the necessary skills and knowledge. A top private university in Malaysia will prepare graduates with the necessary knowledge and skills to succeed in the area of Telecommunications Engineering.

For more information contact 01111408838

Please fill up the Form below and I will WhatsApp you and provide you with sound advise on how to choose the best private university or college in Malaysia to study at. If you do not give your mobile number or full name as in IC, your query will not be answered. Our knowledgeable & experienced counsellor will send you a message on WhatsApp & provide assistance from there.

Study Telecommunications Engineering Degree that’s Accredited by Board of Engineers Malaysia (BEM)

Telecommunications engineering combines electrical engineering with computer science to enhance telecommunication systems. The work of a telecommunications engineer ranges from basic circuit design to strategic mass developments. A telecommunication engineer is responsible for designing and overseeing the installation of telecommunications equipment and facilities, such as complex electronic switching systems, copper wire telephone facilities, and fiber optics.

Telecommunication is a diverse field of engineering which is connected to electronics, civil, structural, and electrical engineering. They are responsible for providing the method for customers to have telephone and high-speed Internet data services. Telecom engineers are often expected, as most engineers are, to provide the best solution possible for the lowest cost to the company. This often leads to creative solutions to problems that often would have been designed differently without the budget constraints dictated by modern society.

In the earlier days of the telecom industry, massive amounts of cable were placed that were never used or have been replaced by modern technology such as fiber optic cable and digital multiplexing techniques. Students who are good in subjects like Add Maths and Physics can consider the degree in Telecommunications Engineering.

Education Pathway

Students after SPM or O-Levels can go for the Foundation in Engineering or Foundation in Science at top private universities in Malaysia before continuing on to the 4-year degree in Telecommunications Engineering. You will need at least 5 credits in the relevant subjects to enter a Foundation course.

Alternatively, with at least 3 credits in SPM or O-Levels, students can enter the Diploma in Electrical & Electronic Engineering for 2 years. After completing the diploma, students will receive advanced standing into Year 2 of the Telecommunications Engineering degree.

Students who have completed a Pre-University course in Malaysia such as Foundation, STPM, UEC, A-Levels, SAM, AUSMAT, MUFY, CPU, etc may enter into the Telecommunications Engineering degree Year 1 should they meet the relevant entry requirements of the particular university.

Importance of the Accreditation from the Board of Engineers Malaysia (BEM)

Students in Malaysia planning to study engineering should understand what it means to become a professional engineer and the pathway. To become a professional engineer in Malaysia, a student must graduate from an engineering degree that’s accredited by the Board of Engineers Malaysia (BEM). The Board of Engineers Malaysia (BEM) is recognised by the Washington Accord because Malaysia is one of its signatories therefore allowing graduates to be able to work in any country that has signed it.

The Board of Engineers Malaysia (BEM) registers graduates and professional engineers under the Registration of Engineers Act 1967 (Revised 2002). The requirement for registration as a graduate engineer is a degree in engineering recognised by the Board. Board of Engineers Malaysia (BEM) is the only body certifying Professional Engineers in Malaysia.

This regulatory body for engineering practices in Malaysia was set-up by the Malaysian government under the Registration of Engineers Act (1967) to administer and to enforce the Engineering Act and its provisions to protect public interest. Only Graduate Engineers and Professional Engineers registered with the Board of Engineers, Malaysia (BEM) are entitled to practice engineering in Malaysia.  All engineering practitioner MUST register with BEM within 6-months of practice.

A professional engineer (Ir or PEng) is a person who is licensed to practice to practice engineering in Malaysia after meeting all requirements of the  (e.g. pass PI Examination).

Best Bachelor of Engineering (Hons.) ElectronicsMajoring in Telecommunications Degree Courses in Malaysia at Top Ranked Multimedia University (MMU) Cyberjaya Campus

Multimedia University (MMU) is the first private university in Malaysia and is ranked top in the world having won many awards and accolades. In 2009, MMU was ranked at 171 by THES-QS in the Asian University Rankings, the first private university in Malaysia to achieve such a feat. The 2017 QS World University Rankings by Subject again listed MMU as the No. 1 private university in Malaysia for “Electrical & Electronics Engineering”.

The Faculty of Engineering teaching staff at Multimedia University (MMU) Cyberjaya have at least a Master for lecturers, at least 2nd Class Upper Bachelor degree for tutors in MMU. About 80% Multimedia University (MMU) engineering tutors has 1st class and 35% lecturers with PhD.

The engineering programmes in MMU are accredited by the Malaysian Qualification Agency (MQA) and the Engineering Accreditation Council (EAC) as well as recognised by the Board of Engineers Malaysia (BEM).

Hence, MMU’s engineering graduates can readily seek employment or be admitted into top international universities for postgraduate studies. More than 40% of MMU’s engineering graduates secure jobs before completion of studies while more than 96% of them secure jobs within 6 months after graduation.

Engineering students taking the Telecommunications Engineering course in the Faculty of Engineering at Multimedia University (MMU) Cyberjaya will be collectively exposed to the design and implementation of communication systems for processing and transmitting information, and the creation of applications for mobile phones and Internet-based services.

Substantial training in engineering mathematics is also included in the programme, with an emphasis of subjects in management, economics, accounting and law. Multimedia University (MMU) Cyberjaya engineering students are required to take industrial training and graduation projects to provide them with useful industrial experience and research training. The programme is designed to be a four-year engineering course in Telecommunications.

This B.Eng. (Hons) Electronics Majoring in Telecommunications programme at Multimedia University (MMU) Cyberjaya trains future engineers in the design, implementation and management of communication systems for processing and transmitting information, as well as creation of applications for mobile systems and Internet-based services. Students will be exposed to the technical fields of analogue and digital communications, antenna and propagation, mobile and satellite communications, telephony, information theory, data communications, electromagnetic waves, optical communications, 4G technologies and beyond. In addition, there will be intensive training in engineering mathematics, electronics, circuit and signals, computer and microprocessor systems, data communications and networking, electromagnetics, control theory, programming and power systems.

A good coverage of subjects in management, economics, accounting and law is also emphasised. Students are required to undergo industrial training, implement capstone and graduate projects to cultivate skills and capabilities in practical problem solving, system design, project implementation and management. By so doing, graduates are better prepared to address the challenges of an increasingly complex and rapidly evolving telecommunications industry.

Year 1 Subjects for the B.Engineering (Hons) Electronics Majoring in Telecommunications at Multimedia University (MMU) Cyberjaya

• Engineering Mathematics 1
• Circuit Theory
• Electronics 1
• Computer and Program
• Design
• Field Theory
• Electronics 2
• Engineering Mathematics 2
• Algorithms and Data
• Structures
• Introduction to Machines
• and Power Systems
• Instrumentation and
• Measurement Techniques
• Digital Logic Design
• Electronics 3

 

Year 2 Subjects for the B.Engineering (Hons) Electronics Majoring in Telecommunications at Multimedia University (MMU) Cyberjaya

• Engineering Mathematics 3
• Microcontroller and
• Microprocessor Systems
• Circuits and Signals
• Electromagnetics Theory
• Analog Communications
• Computer Organization and Architecture
• Information Theory and Error Coding
• Antenna and Propagation
• Engineering Mathematics 4
• Data Communications and Networking

 

Year 3 Subjects for the B.Engineering (Hons) Electronics Majoring in Telecommunications  at Multimedia University (MMU) Cyberjaya

• Digital Communications
• Communications Networks
• Digital Signal Processing
• Embedded System Design
• Capstone Project
• Industrial Training

Electives

• Java Technology
• Random Signal and Network Analysis
• RF Measurement Techniques
• Object Oriented Programming with C++
• Security and Cryptography
• Electromagnetic Interference
• Mobile Application Development

Year 4 Subjects for the B.Engineering (Hons) Electronics Majoring in Telecommunications at Multimedia University (MMU) Cyberjaya

• Project
• Mobile and Satellite
• Communications
• Advanced Networking Techniques
• Control Theory
• Optoelectronics and Optical Communications

Electives

• Parallel Processing and
• Programming
• VLSI System Design and
• Modeling Technique
• RF Circuit Design

BEM Accredited B. Eng (Hons) Telecommunications Engineering at Top Ranked Asia Pacific University (APU) in Malaysia

The Telecommunications Engineering programme at APU is specifically designed to provide:

• High-quality undergraduate engineering education by providing students with a curriculum that is firmly grounded in telecommunication engineering fundamentals.
• A study in the areas of telecommunication engineering which covers the structure of mobile computing systems, telecommunication systems & networks, and software systems.
• The technical skills to cover the ever demanding expertise in the fields of microwave and optical Transmission, satellite communications and RF communications.

PROGRAMME EDUCATIONAL OBJECTIVES

Telecommunication Engineers design, develop, test and maintain telecommunication systems. Telecommunication engineering will appeal to those who are interested in the following field:

• Satellite and mobile communication
• Signal processing
• Optical fibres and photonics
• Data networks, data coding, compression, encryption and transmission
• Real-time embedded systems
• Telecommunication Engineers design, develop, test and maintain telecommunication systems

PROGRAMME OUTCOMES

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

• Ability to gain and apply basic principles of Mathematics, Science and Engineering.
• Ability to identify engineering problems and apply basic engineering principles to solve them.
• Ability to recognize and apply suitable tools and techniques for engineering practical applications.
• Ability to investigate complex engineering problems using research techniques.
• Ability to design solutions for complex engineering problems.
• Ability to communicate effectively and professionally.
• Ability to comprehend and demonstrate current good practices of engineering for sustainable development.
• Ability to practice safety, health, social, cultural, legal and environmental responsibilities as an engineer.
• Ability to execute the responsibilities of an Engineer professionally and ethically.
• Ability to function effectively as an individual or in a team.
• Ability to recognize the need for, and be able to engage in independent and life-long learning.
• Ability to demonstrate and apply the knowledge and understanding of engineering management principles.

Year 1 Subjects for the Telecommunications Engineering degree at Asia Pacific University (APU)

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, 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.

Common Modules

• Analysis of Circuits
• Engineering Materials
• Introduction to Management
• Engineering Mathematics 1
• Introduction to C Programming
• Engineering Mathematics 2
• Instrumentation & Measurement
• Engineering Design

Year 2 Subjects for the Telecommunications Engineering degree at Asia Pacific University (APU)

Here, you start specialising in modules that develop the necessary underlying knowledge and skills in Telecommunication Engineering. Further, in-depth Electronic and Telecommunication skills are developed here with modules such as Electromagnetic Field Theory, Engineering Software & Applications, Analogue Electronics, Digital Electronics, Analogue Communication, Digital Communication, Signals & Linear Systems and Introduction to Power Systems. 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
• Introduction to Power Systems

Specialised Modules

• Analogue Communication
• Digital Communication

Year 3 Subjects for the Telecommunications Engineering degree at Asia Pacific University (APU)

Specialised knowledge and skills in the areas of, Control Engineering, Multimedia Applications, Computer Architecture, Microprocessor Systems & Embedded Software, Digital SignalProcessing, Numerical Methods & Statistics, Antenna & Propagation, Modern Communication Systems, and Optical Communication & Networks 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.

Independent learning continues in all modules.

Common Modules

• Control Engineering
• Multimedia Applications
• Computer Architecture
• Microprocessor Systems & Embedded Software
• Numerical Methods & Statistics
• Digital Signal Processing

Specialised Modules

• Antenna & Propagation
• Modern Communication System
• Optical Communication & Networks

Engineering Internship at Asia Pacific University
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 Subjects for the Telecommunications Engineering degree at Asia Pacific University (APU)

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, Microwave & RF Communication and Satellite & Mobile Communication.

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 Telecommunication Engineering will enable students to take on R&D with commercialisation. The Telecommunication 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)
• VLSI Design
• Analogue Integrated Circuits & Systems
• Project Phase II (Implementation)
• Engineer in Society

Specialised Modules

• Microwave and RF Communication
• Satellite and Mobile Communication

Board of Engineers Malaysia (BEM) Accredited Bachelor of Engineering (Hons) Communication & Electronic Engineering at Top Ranked UCSI University

Communication Engineering is the branch of engineering that deals with communications technology development and operations, including telecommunications and computer networks, to name a few. 
 
Modern society has become increasingly dependent on instantaneous communication of information in a world of integrated digital communication networks. Thus, this degree programme caters to society’s demands for seamless transfer of information, through mobile phones, TVs, radios, the Internet or other media. 
Communication has been identified as one of the major growth areas in the industry. Students will learn about operating principals and designing devices, ranging from mobile phones to wireless networks and satellite communication systems, among others.

Notably, the programme covers a wide range of courses, from electrical science and circuit design to computing, optical fibre systems, microwave circuits, communications and digital networks. 

To nurture competitiveness among graduates, they are also required to undergo industrial training under UCSI University’s Co-operative Training Placement Scheme at the end of the 2nd and 3rd academic years. This training allows students to learn and familiarise themselves with the real-life working environment. Apart from that, students also undertake a research and development project in their final year of study.

UCSI University is one of the best universities for telecommunication engineering in Malaysia because they were one of the first private universities to offer this course. The quality of the programme has gained recognition through accreditation by the Board of Engineers Malaysia (BEM)

Programme Details 

The duration of the programme is 4 years. 

In each year there are two long-semesters consisting of 14 weeks of instruction with 2 weeks of examinations, and one short-semester consisting of 7 weeks of instruction with 1 week of examinations. The long-semesters start in January and May, while the short-semester starts in September. 
 
In the months of November & December students undergo industrial training under the Co-Operative Placement Scheme to learn and to familiarize themselves with real life working environment. In addition, students also undertake a research and development project in their final year. 
 
The number of contact hours per courses per week depends on the credit and teaching methodology of each course. Each credit is approximately equivalent to 1 hour of class, or 2 hours of labs per week. 

Year 1 Communication & Electronic Engineering Degree Subjects Offered at UCSI University

• Calculus & Analytical Geometry II
• Circuit Theory I *
• Digital Electronics I *
• Analogue Electronic I *
• Mathematical Methods for Engineers I
• Technical Communication
• Electromagnetic Theory I *
• Electronic Labratory 1A
• Electronic Labratory 1B

Year 2 Communication & Electronic Engineering Degree Subjects Offered at UCSI University

• Advanced Circuit Theory &TL *
• Engineering Design *
• Mathematical Methods for Engineers II
• Electronic Manufacturing Industry *
• Engineering Softwares & Applications *
• Electrical Power *
• Computing for Engineers *
• Co-operative Placement 2
• Analogue Electronics II *
• Digital Electronics II *
• Electronic Labratory 2A
• Electronic Labratory 2B

Year 3 Communication & Electronic Engineering Degree Subjects Offered at UCSI University

• Communication Circuits *
• Electromagnetic Theory II
• Communication Theory *
• Numerical Analysis
• Data Communication &Networks *
• Microprocessor Systems *
• Environmental Engineering and Abatement Processes”
• Optical Communication *
• Engineering & Management & Economics
• Engineers in Society
• Electronic Laboratory 3A
• Communication Laboratory 3B

Year 4 Communication & Electronic Engineering Degree Subjects Offered at UCSI University

• Communication Systems *
• Communication Sub-System Design
• Microwave System Design
• Antennas & EMC
• Digital Signal processing *
• Digital Systems & HDLs *
• Final Year Project A
• Embedded Systems Design *
• Final Year Project B
• Co-operative Placement 4
• Elecronic Laboratory 4A
• Communication Laboratory 4B

Elective :

• Electronic Circuit Design e*
• Introduction to Production and manufacturing
• VLSI Design
• Technopreneurship

Careers in Telecommunication Engineering in Malaysia

Telecommunication Engineering is the most rapidly developing and dynamic field of Engineering. Rapid growth in the telecommunication sector is evident from the deep penetration of the Internet and mobile phones in every corner of the world.

Careers include design engineers of telecommunication and signal processing systems that provide essential electronic support networks for information technology industries and mobile/wireless and communication engineers.

Graduates would also be employable in sectors such as broadcasting and general telecommunication services. Graduates are able to find career opportunities in the following roles:

• RF Design
• Electronic Design
• Device and System Design
• R & D Engineer
• Fabrication & Data Transmission
• Project Engineer
• Micro Design
• COmmunication Design
• Manufacturing
• Power Plant Transmission
• Antennae Design