Bachelor of Electrical and Electronics Engineering with Honours
Source: https://www.utp.edu.my/Pages/Admission/Undergraduate/Bachelor-of-Electrical-and-Electronics-Engineering-with-Honours.aspx Parent: https://www.utp.edu.my/Pages/Home.aspx
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Bachelor of Electrical and Electronics Engineering with Honours
(R2/0713/6/0011) (11/26) (MQA/FA3981)
Introduction
Electrical & Electronics Engineering (EE) has always been one of the important engineering disciplines within the engineering society. EE contributions are not limited to areas such as telecommunications, computer systems, and power engineering but are also extended into areas of applications such as manufacturing, information technology, and many more. Unlike other engineering disciplines, EE is very dynamic and sensitive to technological advancement in the world. In fact, most technological revolutions start from Electrical and Electronics Engineering.
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Electrical & Electronics engineers are involved in the design and development of modern high-technology applications, such as automation for electromechanical systems, computer systems, embedded systems, or electronic control systems applied in process plants, renewable energy, automotive industry, aerospace, and even maintenance. In other words, Electrical & Electronics engineers are in high demand in various fields. Graduates in this EE are highly sought after by potential employers.
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The Bachelor of Electrical and Electronics Engineering with Honours programme at Universiti Teknologi PETRONAS emphasises a strong foundation in physics, mathematics, and chemistry, followed by a thorough coverage of basic electrical and electronics engineering courses such as circuittheory, analogue electronics, digital electronics, microprocessor, and signals & systems. At higher levels, students are exposed to data and computer networking, digital signal processing, electrical machines, power systems, control systems, communication systems, instrumentation, and power electronics. In the final year, students have the opportunity to major in one of these areas of interest:
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- Computer and Communication\
- Instrumentation and Control\
- Power Systems Engineering\
- Electronics & Devices\
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Programme Educational Objectives
- Engineers who are competent with the potential to become leaders in Electrical and Electronic Engineering and related industries.
- Engineers who are involved towards sustainable development in Electrical and Electronic Engineering and related industries for the betterment of the society.
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Programme Outcomes
To produce graduates with the following outcomes:
- Apply knowledge of mathematics, natural science, engineering fundamentals and an engineering specialisation to the solution of complex engineering problems.
- Identify, formulate, conduct research literature and analyse complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences and engineering sciences.
- Design solutions for complex engineering problems using research-based knowledge and design systems, components or processes that meet specified needs with appropriate consideration for public health and safety, cultural, societal, and environmental considerations.
- Conduct investigation of complex engineering problems using research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of information to provide valid conclusions.
- Create, select and apply appropriate techniques, resources, and modern engineering and IT tools, including prediction and modelling, to complex engineering problems, with an understanding of the limitations.
- Apply reasoning informed by contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to professional engineering practice and solutions to complex engineering problems.
- Understand and evaluate the sustainability and impact of professional engineering work in the solutions of complex engineering problems in societal and environmental contexts.
- Apply ethical principles and commit to professional ethics and responsibilities and norms of engineering practice.
- Function effectively as an individual, and as a member or leader in diverse teams and in multidisciplinary settings.
- Communicate effectively on complex engineering activities with the engineering community and with society at large, such as being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.
- Demonstrate knowledge and understanding of engineering management principles and economic decision making and apply these to one’s own work, as a member and leader in a team, to manage projects in multidisciplinary environments.
- Recognise the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change.
Graduation Requirements
To graduate with the Bachelor of Electrical and Electronics Engineering with Honours, students are required to obtain a minimum of 144 credit hours and a minimum CGPA of 2.00/4.00.
| Summary of Courses Required for Graduation | |
| Course Group (G) | Number of Credit Hours |
| NR - National Requirement | 10 |
| UR - University Requirement | 15 |
| CC- Core Common | 21 |
| CD - Core Discipline | 75 |
| CI - Core Industrial Internship | 14 |
| CSp - Core Specialisation | 9 |
| TOTAL | 144 |
*Curriculum Structure*
Bachelor of Electrical and Electronics Engineering with Honours
Semester 1
| SEMESTER 1 | |||
| Code | Courses | Cr | G |
| MPU 1 | Penghayatan Etika & Peradapan (Local) BM Komunikasi 2 (International) | 2 | NR |
| PFB1012 | Introduction to Oil & Gas and Sustainable Engineering | 2 | UR |
| HFB2152 | Ethics and Integrity | 2 | UR |
| FFM1013 | Engineering Mathematics 1 | 3 | CC |
| EFB1013 | Circuit Theory | 3 | CD |
| EFB1023 | Structured Programming and Interfacing | 3 | CD |
| | Credit Hours | 15 | |
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Semester 2
| SEMESTER 2 | |||
| Code | Courses | Cr | G |
| MPU 1 | Falsafah dan Isu Semasa (Local & International) | 2 | NR |
| CFB1032 | Health, Safety & Environment | 2 | CC |
| FFM1023 | Engineering Mathematics 2 | 3 | CC |
| EFB1031 | Electrical Circuit Analysis Lab | 1 | CD |
| EFB1043 | Signals & Systems | 3 | CD |
| EFB1054 | Digital Electronics | 4 | CD |
| | Credit Hours | 15 | |
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Semester 3
| SEMESTER 3 | |||
| Code | Courses | Cr | G |
| MPU 2 | One (1) U2 Course | 2 | NR |
| LFB1042 | Academic Writing | 2 | UR |
| HFB1022 | Scientific Inquiry | 2 | UR |
| KXXXXX1 | Co Curriculum I | 1 | UR |
| EFB1063 | Network Analysis | 3 | CD |
| EFB1074 | Microelectronic Physics & Devices | 4 | CD |
| | Credit Hours | 14 | |
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Semester 4
| SEMESTER 4 | |||
| Code | Courses | Cr | G |
| MPU 3 | One (1) U3 Course | 2 | NR |
| HFB2033 | Professional Communication Skills | 3 | UR |
| GFB2102 | Entrepreneurship | 2 | UR |
| EFB2013 | Analogue Electronics | 3 | CD |
| EFB2023 | Electromagnetic Theory | 3 | CD |
| | Credit Hours | 13 | |
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Semester 5
| SEMESTER 5 | |||
| Code | Courses | Cr | G |
| MFB2061 | Engineering Team Project I | 1 | CC |
| FFM2063 | Data Analytics | 3 | CC |
| EFB2031 | Mixed Signal System Lab | 1 | CD |
| EFB2043 | Communication Systems | 3 | CD |
| EFB2053 | Microelectronic Circuits | 3 | CD |
| | Credit Hours | 11 | |
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Semester 6
| SEMESTER 6 | |||
| Code | Courses | Cr | G |
| MPU 4 | Community Engagement Project | 2 | NR |
| KXXXXX1 | Co Curriculum II | 1 | UR |
| MFB2102 | Engineering Team Project II | 2 | CC |
| EFB2063 | Instrumentation and Measurement | 3 | CD |
| EFB2073 | Microprocessor & Computer Architecture | 3 | CD |
| EFB2083 | Electrical Machines | 3 | CD |
| | Credit Hours | 14 | |
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Semester 7
| SEMESTER 7 | |||
| Code | Courses | Cr | G |
| EFB3013 | Power Systems | 3 | CD |
| EFB3023 | Control Systems | 3 | CD |
| EFB3033 | Power Electronics | 3 | CD |
| EFB3043 | Data & Computer Network | 3 | CD |
| | Credit Hours | 12 | |
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Student Industrial Internship Programme
| *STUDENT INDUSTRIAL INTERNSHIP PROGRAMME* | |||
| Code | Courses | Cr | G |
| IFB3037 | Student Industrial Training (SIT) | 7 | CI |
| | Credit Hours | 7 | |
| STUDENT INDUSTRIAL INTERNSHIP PROGRAMME | |||
| Code | Courses | Cr | G |
| IFB3047 | Student Industrial Project (SIP) | 7 | CI |
| | Credit Hours | 7 | |
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Semester 8
| SEMESTER 8 | |||
| Code | Courses | Cr | G |
| VFB3102 | Project Management | 2 | CC |
| EFB4012 | Integrated System Design Project I | 2 | CC |
| EFB4023 | Digital Signal Processing | 3 | CD |
| EFB4033 | Probability and Random Processes | 3 | CD |
| EFB4XX3 | Core Specialisation I | 3 | CSp |
| | Credit Hours | 13 | |
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Semester 9
| SEMESTER 9 | |||
| Code | Courses | Cr | G |
| PFB4102 | Engineering Economics | 2 | CC |
| Final Year Project I | 2 | CD | |
| EFB4053 | Integrated System Design Project II | 3 | CD |
| EFB4063 | Artificial Intelligence & Applications | 3 | CD |
| EFB4XX3 | Core Specialisation II | 3 | CSp |
| | Credit Hours | 13 | |
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Semester 10
| SEMESTER 10 | |||
| Code | Courses | Cr | G |
| EFB4073 | Engineers in Society | 3 | CC |
| Final Year Project II | 4 | CD | |
| EFB4XX3 | Core Specialisation III | 3 | CSp |
| | Credit Hours | 10 | |
| Total Credit Hours : 144 |
Core Specialisation (CSp) Courses
Choose any of the following sets of Core-Specialisations areas (set A, B, C, D or E) for Core Specialisation I, II and III.
| A. Computer and Communication | ||||
| No | Code | Course Name | Cr | G |
| 1 | EFB4113 | Advanced Communication Systems | 3 | CSp |
| 2 | EFB4123 | Real-Time Microcontroller Systems | 3 | CSp |
| 3 | EFB4133 | Digital System Design | 3 | CSp |
| B. Instrumentation and Control | ||||
| No | Code | Course Name | Cr | G |
| 1 | EFB4213 | Modern Control Engineering | 3 | CSp |
| 2 | EFB4223 | Industrial Automation Systems | 3 | CSp |
| 3 | EFB4233 | Plant Process Control Systems | 3 | CSp |
| C. Power Systems Engineering | ||||
| No | Code | Courses | Cr | G |
| 1 | EFB4313 | Design & Analysis of Electrical Machines | 3 | CSp |
| 2 | EFB4323 | Power Electronics & Electrical Drives | 3 | CSp |
| 3 | EFB4333 | Power System Analysis & Protection | 3 | CSp |
| D. Electronics & Devices | ||||
| No | Code | Courses | Cr | G |
| 1 | EFB4413 | Analogue Integrated Circuit Design | 3 | CSp |
| 2 | EFB4423 | Sensors & Transducers Design | 3 | CSp |
| 3 | EFB4433 | System On-Chip Design | 3 | CSp |
| E. Renewable Energy | ||||
| No | Code | Course Name | Cr | G |
| 1 | MFB4123 | Energy Management and Environment | 3 | CSp |
| 2 | MFB4513 | Renewable Energy I | 3 | CSp |
| 3 | MFB4523 | Renewable Energy II | 3 | CSp |
Minor (EM) Courses
Engineering students who are interested to enhance their knowledge in computer and information systems will have the option to complete courses offered under a Minor. There is one Minor package available for Engineering students as below:
- Minor in Data Science\
To be eligible for a Minor, students are required to pass and complete all the courses under the package (15 credits). Results obtained from courses under Minor will be counted in the GPA/CGPA calculation. Students are reminded that the option to complete Minor courses is at the student’s discretion and is not compulsory. The total credit hours accumulated under Minor courses will be over and above the graduation requirements of 144 credit hours.
| Minor in Data Science | |||||
| No | Code | Courses | Cr | G | Semester |
| 1 | TFB2073 | Artificial Intelligence | 3 | EM | Students can take these courses in any semester |
| 2 | FFM3023 | Simulation and Optimisation | 3 | EM | |
| 3 | TFB3113 | Data Mining | 3 | EM | |
| 4 | TFB3123 | Machine Learning | 3 | EM | |
| 5 | TFB3133 | Data Visualization | 3 | EM | |
| Total Credit Hours | 15 | |
Entry Requirements
How to Apply
UTP application process for local and international applicants:
Local Applicants\ International Applicants\
Tuition Fees
\ Local Students\ International Students\ \
Financial Aid\ For more info on available financial aid, click here
*Click here to download*
Contact Person
For further details, you may contact:
Chair, Department of Electrical & Electronics Engineering
Associate Professor Dr Mohamad Naufal bin Mohamad Saad
Email: naufal_saad@utp.edu.my
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FAQ's
1. What is the Bachelor of Electrical and Electronics Engineering with Honours?
This programme is on a strong foundation in physics, mathematics, and chemistry, followed by thorough coverage of basic electrical and electronics engineering courses such as circuit theory, analogue electronics, digital electronics, microprocessors, and signals and systems.
2. What are the entry requirements for the programme?
The entry requirements for the programme are Pre-University, Matriculation, Diploma, UEC in relevant fields.
3. What are the career prospects for graduates of the Electrical and Electronics Engineering programme?
Electrical and Electronics Engineering graduates have broad career opportunities in various fields such as electronics, telecommunication, IT, software development, automotive, manufacturing, industrial, power, and more.
4. What are the tuition fees for the programme?
The total fee for all Engineering programs for local students is approximately RM94,400, and for international students, it is approximately RM115,500.