EE231 - Section 662 - 1
Signals and Systems ( EE231 - Section 662 )
This course covers basic concepts and methods related to continuous and discrete-time signals and systems. The course includes: signals and systems and their properties, linear time-invariant systems, stability analysis, sampling of continuous-time signals, z-transform, continuous and discrete-time Fourier transform, discrete Fourier transform and fast Fourier transform.
EE305 - Section 666 - 1
Power Electronics ( EE305 - Section 666 )
This course is an introduction to Power Electronics. It enables the student to understand the basic Power Electronics components, operations, design, and analysis of basic power electronics converter circuits. The course is focused on the applications of the power converter in various sectors e.g. industrial, electric grid, renewable energy, microgrid, electric vehicle, etc. In addition, the course covers the basic characteristics, control schemes and applications of power semiconductor devices and circuits.
• Provide knowledge about power semiconductor devices and circuits
• Understand the types, modes of operation and design of various power converters.
• To connect the dots between power electronics and various energy sectors e.g. industrial, electric grid, renewable energy, microgrid, electric vehicle, etc.
• Understand the control scheme of various power converter configurations.
• To learn simulation of basic power electronic converter.
EE312 - Section 669 - 1
Electronic Engineering ( EE312 - Section 669 )
This course enables the students to understand the DC and AC analysis, and modeling of multistage configuration based on BJT, FET, and MOSFET. This course also helps to analyze and design the different electronic circuitries of filters, oscillators, and feedback amplifiers.
The main objective of the course is to
● Identify the design characteristics of BJT, FET, and MOSFET amplifiers.
● Analyzing DC and AC models of the different multiage configurations of BJT.
● Analyzing DC and AC models of the different configurations of FET/MOSFET
● Analyzing and designing the circuit of the feedback amplifier.
EE341 - Section 676 - 1
Electromagnetics Fundamental ( EE341 - Section 676 )
This module is designed to introduce electromagnetic fields. Coulomb's law, Gauss's law, electrical potential, dielectric materials capacitance, boundary value problems, Biot-Savart law, Ampere's law, Lorentz force equation, magnetic materials, magnetic inductance, time-varying fields, and Maxwell's equations.
EE351 - Section 678 - 1
Communication Systems ( EE351 - Section 678 )
This course focuses on continuous-wave modulation, which is the basic operation of analog communication systems. It gives the student an insight and understanding of the basic model of communication systems, such as AM and FM radio systems. We cover thoroughly the generation and reception of double-side band, single sideband, vestigial sideband, angle modulation signals, and pulse modulation techniques.