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Electrical Engineering
Electrical and Electronic Engineering is an exciting and dynamic field. Electrical engineers are responsible for the generation, transfer and conversion of electrical power, while electronic engineers are concerned with the transfer of information using radio waves, the design of electronic circuits, the design of computer systems and the development of control systems such as aircraft autopilots. These sought-after engineers can look forward to a rewarding and respected career.

We will provides the facilities to our young and dynamics engineers to study the following systems:

Electrical energy systems – Electrical energy systems encompass the study and design of electrical transmission systems, electrical machines and variable speed drives; high power electronic converters and high voltage engineering. This requires engineering on a grand scale, such as power distribution across Southern Africa. Power generation from renewable resources, such as wind and sun, and electrical transport, such as battery electrical vehicles, are of growing importance in the electrical engineering field and postgraduate studies.

Electronics – It is the study of components and circuits used to construct items such as audio amplifiers, radio transmitters and computer circuits. Students learn about elementary electrical components, transistors, integrated circuits, computer circuitry and power electronics. The field specializes in areas such as microwave electronics, superconducting electronics, ultra-high speed electronics and the prevention of electromagnetic interference between devices.

Electromagnetic systems – These systems are diverse and complex, ranging from the study of the electromagnetic effects of motors and electrical insulators to radio and radar antennas, radio waves and visible light (fiber optics). The scope of study ranges from undergraduate introductory courses to world class research at graduate level.

Computer systems - students are trained to design and implement computers and digital electronic systems. This field also covers the design and construction of microcomputers built to control almost every electrical appliance, from automatic irrigation systems to autopilots for aircraft. Computer programming for embedded systems and reconfigurable logic circuits and the use and development of real time operating systems to address a variety of engineering problems, are also of key importance.

Control systems – Control systems range from the temperature control in air conditioning systems to the sophisticated automatic landing systems that allow aircraft to land autonomously in thick fog or to point camera systems accurately from satellites to target areas on the ground. Students learn techniques to design control systems for both electronic (analogue) and computer (digital) implementations and also to apply the knowledge in other branches of engineering.

Signal processing - Speech, radio waves and television images are all examples of signals. Students study the behavior of these signals and apply computers usefully to process them (eg speech, speaker and image recognition, software defined radios and protocols). Mathematical aids are created to analyze and understand these signals.
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