The Electrical System Engineering programme leading to the degree of Bachelor of Engineering (Hons)(Electrical System Engineering) has a strong focus on the preparation of engineers who can serve the needs of the electric power industry. This programme provides emphasis on the major fields of power engineering, which includes electrical machines, power systems and high voltage engineering. These are offered as compulsory course so as to cope with the rapid change of technology in power engineering.
Fundamental subjects on electrical circuit and power engineering are taught in the first two years of study. A broad background in mathematics and computing, electric circuits and systems, analogue electronic circuits and components, digital systems, instrumentations, communications, electromagnetics and control, necessary to underpin the more advanced courses given in the subsequent years. Students undergo practical training after at the semester break of third year to gain practical knowledge from electrical power industries. Final year student project enhance practical skills and the use of innovative and creative ideas.
Programme Objective 1
Graduates who are leaders in the field of electrical engineering or chosen field as demonstrated via career advancement.
Programme Objective 2
Graduates who are members of and contribute to professional society.
Programme Objective 3
Graduates who engage in life-long learning or continuous education opportunities.
Programme Objective 4
Graduates who contribute towards research and development.
Programme Objective 5
Graduates who are entrepreneurial engineers.
PO1
Ability to acquire and apply knowledge of mathematics, science, engineering and an in-depth technical competence in electrical engineering discipline to the solution of complex engineering.
PO2
Ability to identify, formulate and solve electrical engineering problems.
PO3
Ability to design solutions for complex engineering problems and systems, component or processes to meet desired needs.
PO4
Ability to conduct investigation into complex problems as well as to analyze and interpret data.
PO5
Ability to use techniques, skills and modern engineering tools necessary for complex engineering practices so as to be easily adaptable to industrial needs.
PO6
Understanding of the social, cultural, global and environmental responsibilities of a professional engineer.
PO7
Ability to understand entrepreneurship, the process of innovation and the need for environmental and sustainable development.
PO8
Ability to understand the professional and ethical responsibilities and commitment to the community.
PO9
Ability to function on multi-disciplinary teams.
PO10
Ability to communicate effectively on complex engineering activities with the engineering community and with society at large.
PO11
A recognition of the need for, and an ability to engage in life-long learning.
PO12
Demonstrate understanding of project management and finance principles.
SEMESTER I
ENGINEERING CORE
EET106/3 ENGINEERING SCIENCE
EET108/3 ELECTRIC CIRCUIT I
NON ENGINEERING
EQT101/3 Engineering Mathematics
UNIVERSITY REQUIRED
EUUW233/2 Islamic Civilization and Asia Civilization
UUW410/2 University Malay Language
UUW235/2 Ethnic Relation
UUWXXX/1 Uniform Body
SEMESTER II
ENGINEERING CORE
EET110/3 COMPUTER PROGRAMMING
EET107/3 DIGITAL ELECTRONICS I
EET109/3 ELECTRONIC DEVICES
NON ENGINEERING
EQT102/3 Engineering Mathematics II
EUT122/2 Skills And Technology in Communication
ECT111/3 Engineering Skills
UNIVERSITY REQUIRED
UUWXXX/1 Uniform Body
SEMERTER III
ENGINEERING CORE
EET206/3 ELECTRIC CIRCUIT II
EET202/3 DIGITAL ELECTRONICS II
EET205/4 ANALOG ELECTRONICS
EET204/3 INSTRUMENTATION AND MEASUREMENT
NON ENGINEERING
EQT203/3 Engineering Mathematics III
UNIVERSITY REQUIRED
UZWXXX/1 Co-curriculum
SEMESTER IV
ENGINEERING CORE
EET208/3 ELECTRICAL POWER TECHNOLOGY
EET203/4 MICROCONTROLLER SYSTEMS DESIGN
EET207/3 SIGNALS AND SYSTEMS
NON ENGINEERING
EQT271/3 Engineering Statistics
UNIVERSITY REQUIRED
UUW212/2 University English Language
UUW224/2 Engineering Entrepreneurship
SEMESTER V
ENGINEERING CORE
EET301/4 POWER SYSTEM ENGINEERING
EET302/3 CONTROL SYSTEMS ENGINEERING
EET306/4 ELECTRICAL MACHINES
EET303/3 ELECTROMAGNETIC THEORY
NON ENGINEERING
EUT440/3 Engineers in Society
SEMESTER VI
ENGINEERING CORE
EET308/4 POWER SYSTEM ANALYSIS
EET307/4 POWER ELECTRONICS I
EET304/3 COMMUNICATION SYSTEM ENGINEERING
EET333/3 ENGINEERING TEAM PROJECT
NON ENGINEERING
EET311/2 ENGINEERING ECONOMICS
UNIVERSITY REQUIRED
UUW322/2 Thinking Skills
EIT302/4 Industrial Training (will be conducted during mid term holiday)
SEMESTER VII
ENGINEERING CORE
EET445/2 FINAL YEAR PROJECT I
EET412/3 ELECTRICAL MACHINE DESIGN
EET411/3 POWER SYSTEM OPERATION & CONTROL
EET414/3 SUBSTATION DESIGN
EETXXX/3 Elective I
UNIVERSITY REQUIRED
UUWXXX/2 Option
SEMESTER VIII
ENGINEERING CORE
EET446/4 FINAL YEAR PROJECT II
EET416/3 ELECTRICAL DRIVES
EET417/3 HIGH VOLTAGE ENGINEERING
EETXXX/3 Elective II
NON ENGINEERING
EUT443/2 Engineering Management
ELECTIVE
Elective I
EET427/3 INDUSTRIAL ELECTRONICS CONTROL
EET426/3 POWER ELECTRONICS II
EET431/3 ELECTRICAL ENERGY SYSTEM
EET432/3 ELECTRICAL ENERGY UTILIZATION
Elective II
EET418/3 POWER QUALITY
EET422/3 ELECTROMAGNETIC COMPATIBILITY (EMC) AND COMPLIANCE ENGINEERING
EET433/3 RENEWABLE ENERGY SYSTEM
Source : Universti Malaysia Perlis (UniMap)