Power Electronics
This course deals with the application of solid-state electronics to the control and conversion of electrical power and meets the needs for experts in electrical engineering.
Circuit SPICE Simulation
This course aims to introduce basic theory of engineering parameters and characteristics for solving various circuitry problems using SPICE (Simulation Program with Integrated Circuit Emphasis) software. This enables students to perform modeling of circuit operation with the aid of computer simulation and modelling in the engineering discipline.
EEE307 Fundamentals of Microwave Technology 2020/04
EEE307 Fundamentals of Microwave Technology for April Trimester, 2020
EEE308 RF and Microwave Circuit 2020/04
EEE308 RF and Microwave Circuit for April Trimester, 2020
Engineering Physics II copy 1
This course covers concepts and fundamental principles of Physics. Topics include mechanical waves, electromagnetic fields and waves, optics and modern physics.
Engineering Physics II
This course covers concepts and fundamental principles of Physics. Topics include mechanical waves, electromagnetic fields and waves, optics and modern physics.
G0213 Introduction to Probability and Statistics
This course covers various topics on probability and statistics, including conditional probability, random variables and distributions, expectation, typical distributions, estimation, sampling distributions of estimators, testing hypotheses, categorical data and nonparametric methods, and linear statistical models.
Data Structures - EEE211 (2019)
This course is a survey of fundamental data structures for information processing, including lists, stacks, queues, trees, and graphs. It explores the implementation of these data structures (both array-based and linked representations) and examines classic algorithms that use these structures for tasks such as sorting, searching, and text compression.
Control System
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.
Electromagnetic Field Theory and Waves
EEE302: Electromagnetic Field Theory and Waves. This course covers concepts of electromagnetic fields, including Maxwell’s equations, time-varying electromagnetic fields and plane wave propagation, transmission lines and waveguides.
Engineering Management
EEE316: Engineering Management. This course serves as an introduction to engineering management. Topics include financial principles, management of innovation, engineering project planning and control, human factors, career planning, patents, and technical strategy.
Control Systems
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.
Semiconductor physics and device processing
This course covers basic knowledge of quantum mechanics, solid state physics, theory of semiconductor energy-band and P-N junction, carrier concentration/ transport equation and device processing.
Fundamentals of Microwave Technology (EEE307)
This course introduces device concepts in microwave electronics, including the analysis and design of passive and active microwave devices.
Electrical Machinery and Drive (EEE 303)
This course provides the student an exposure to the fundamental concepts of electrical machines types and its related applications. At the end of the subject, the students will have capability of doing electromechanical design of the electric machines and will have an understanding of the principles of the energy conversion.
EEE301 Signals and Systems 201909
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.
EEE312 Programming Practice 201909
This course covers advanced programming techniques and algorithms in C or Matlab programming syntax. Students will learn to use these techniques to solve scientific problems.
COM207 Digital Electronics 201909
This course meets the needs for experts in electronics, and also is a fundamental course in Electrical and Electronic Engineering.
Engineering Physics (II).2019/09
This course covers concepts and fundamental principles of Physics. Topics include mechanical waves, electromagnetic fields and waves, optics and modern physics
Engineering Physics (I)
This course covers concepts and fundamental principles of Physics. Topics include Mechanics and Thermodynamics
COM210 Engineering Math III 2019/09
The content of the course covers: infinite series and convergence test, Taylor series and approximation, vector functions, partial derivatives, application of partial derivatives, maxima and minima, multiple integrals, iterated integrals, applications of multiple, line and surface integrals, Green's Theorem, Gauss Divergence Theorem and Stokes Theorem.