This course meets needs for experts in engineering mathematics, and also is an essential course in Electrical and Electronic Engineering.
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.
This course covers concepts and fundamental principles of Physics. Topics include Mechanics and Thermodynamics.
This course introduces to students about the energy utilization, efficiency and conservation in order to reduce energy costs and promote economic and environmental sustainability.
This course provides students the exposure on the fundamental concepts of electrical machines and their related applications. At the end of the course, the students will understand the principles of energy conversion and will be able to perform electromechanical design of the electrical machines.
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 is the final stage for the students to integrate their knowledge and skills to solve a given project and write a formal report to explain how they use their knowledge to solve the problem with detail. The presentation will provide students the opportunity to present the work they have done.
This course covers the principles of digital system design. It builds on logic design principles learned in earlier course, digital electronics. This course demonstrates how digital design and rapid prototyping have been facilitated by FPGAs and hardware description languages (Verilog). The content of this course includes combinational and sequential logic, finite state machine, register transfer level (RTL) design, design flow, hardware description language, and FPGAs.