Introduction to 3-phase systems Balanced 3-phase systems, Star and Delta connections, Three Phase Power Response in RLC circuits to sinusoidal voltages, real power, reactive power, power factor, complex power and power triangle At the end of the course you will be able to design and build simple Electronic circuits.ĬO1: Analyze electrical parameters of DC circuits using circuit laws.ĬO2: Evaluate AC circuits in single and three phase systems.ĬO3: Correlate electric and magnetic circuits.ĬO4: Illustrate the concepts of electrical measurement systems.ĬO5: Understand the operation of transformers and induction motors.ĬO6: Develop rectifiers, amplifiers and regulators using various electronic devices. The course also helps you learn about basic concepts of electronics and how most circuits work. This course will also cover Single Phase Transformers and Three Phase Induction Machines.
The basic concepts of DC and AC (Single Phase and Three Phase Circuits) network analysis, steady state and phasor analysis of AC networks, series and parallel resonance and magnetic coupled circuits. This course will introduce and explain the fundamental concepts of basic electrical engineering. Learning how to work on various electrical and electronic systems begins with learning the components and principles that are common to all of them. These systems are extremely complex devices that contain a wide variety of components, and each of these components operates according to one or more fundamental principles. As a result of improvement in technology, many electronic systems that once filled entire rooms can now be held in the palm of your hand. The electronic ‘gadgets’ such as mobile phones, laptops, hand-held computers, global positioning systems, wireless modems and personal audio systems, exist as a result of advances in technology.
As an electrical engineer, you can participate in this ongoing technological revolution by improving and refining these existing systems and by discovering and developing new systems to meet the needs of our ever-changing society.įew developments have affected our lives during the past three decades as profoundly as those in electronics technology. Satellite communication links, telephones, digital computers, televisions, diagnostic and surgical medical equipment, assembly-line robots, and electrical power tools are representative components of systems that define a modern technological society. Over the past century and a half, electrical engineers have played a dominant role in the development of systems that have changed the way people live and work. Electrical engineering is an exciting and challenging profession for anyone who has a genuine interest in, and aptitude for, applied science and mathematics.
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