The students will be exposed to design principles of Printed circuit board (PCB) throughout the course. They will be taught theory linked to PCB design principles, safety concerns and software tool of NI Multisim and Ultiboard for PCB fabrication. This course will bridge the gap between the industry and academia to build the skills for future engineering career as PCB/hardware design engineer.
This course is an elective course that explores the generation, transmission, distribution and power quality in power system engineering.
This course prepares students for working with various types of electrical instruments. Students will learn the basic workings of each instrument and understand their measurement accuracy, precision and errors.
This course is the first part of the final year research-oriented project. It aims to develop students' research skills in solving complex engineering problems in their area of interest. It also aims to enhance students' capabilities in writing a good technical report and presenting their research findings.
This course is the foundation on which most other courses in the electrical engineering curriculum rest. The course discusses a.c. electrical systems in which the direction of current flows in an alternating manner
EEE202 Engineers and Society -abhalim.abubakar@xmu.edu.my
The course covers the development of drafting skills and introduction to sketching, drafting instruments, computer software for graphic representations and problem solving. Emphasis is placed on the practices of graphical analysis, orthographic projection, and Computer Aided Drafting Design.
To expose students to fundamental principles of analog and digital communication systems and investigate the performance of various communication systems
Power System Protection EEE423 , abhalim.abubakar@xmu.edu.my
- High Voltage Engineering, EEE304, This subject is intended to give the students deep knowledge about high voltage engineering. It focuses on the phenomena of high voltage surges and insulation coordination for power systems, characteristics of conduction and breakdown of gas, liquid and solid dielectrics. Generation of high voltages, their measurement and testing technique for high voltage components. In this subject, the student are also exposed to lightning phenomena and their protection
- abdulrashid.abdulrahman@xmu.edu.my
- Power Systems Analysis, EEE406, Power system analysis is important to safeguard the reliability and security of electric power systems, from generation to transmission and distribution. In this course, students will learn transmission system, load flows, power system faults, as well as the stability of the power system. Students will also gain exposure to power system analysis software that is dedicated to analyze complex power systems.
- abdulrashid.abdulrahman@xmu.edu.my
This course provides an overview on the general concept of renewable energy. It covers the basic understanding of on-grid and off-grid sustainable energy conversion systems from resource cathegories and harvesting techniqes to meet the eever increasing energy needs of end consumers.
This course provides an overview on the general concept of renewable energy. It covers the basic understanding of on-grid and off-grid sustainable energy conversion systems from resource cathegories and harvesting techniqes to meet the eever increasing energy needs of end consumers.
Course Name: Control Systems
Course Code: EEE319
Course Description: This course introduces the concepts of control system, including bode plots, nyquist criterion, root locus methods, stability of systems, etc. Students will learn to use these concepts to design efficient control systems.
Lecturer: Ir. Ts. Dr. Prakas
Email: prakas.gopalsamy@xmu.edu.my
Course Name: Signals and Systems
Course Code: EEE221/EEE301
Synopsis:
This course covers fundamentals of signal and system analysis, with applications drawn from filtering, audio and image processing, communications, and automatic control. Topics covered in this course include convolution, Fourier series and transforms, sampling and discrete-time processing of continuous-time signals, modulation, Laplace and Z-transforms, and feedback systems.
Lecture: Ir. Ts. Dr. Prakas
Email: prakas.gopalsamy@xmu.edu.my
This course is regarding the laboratory activities that explore, construct, and debug the various electrical system consisting of different kinds of transformers, power transmission lines, a range of power electronics applications, and system controllers.
This course meets needs for experts in engineering, and also is a fundamental practice course in Electrical and Electronic Engineering. This course covers the simulation of signal and system analysis, including convolution, Fourier series and transforms, sampling and discrete-time processing of continuous-time signals, modulation, Laplace and Z-transforms, and feedback systems.
This course includes the study of systems of linear equations, matrices, determinants, vectors, vector spaces, linear transformations, inner products, eigenvalues, eigenvectors, symmetric matrices and quadratic forms.