Institutional Learning Outcomes: Knowledge Students are introduced to key assumptions, theories, methodologies and mathematical modeling of power electronics. Students learn the functionalities and design of full and half wave rectifiers. Students learn to search, evaluate and select semiconductor components to design voltage controllers, choppers, power supplies, inverters, converters, drive circuits and heatsinks. Students learn to apply prior knowledge of concepts in mathematics to simulate the power electronic circuits in order to analyze the design. Prerequisite:EENG 3410 with a minimum grade of C
Institutional Learning Outcomes: Knowledge Students are introduced to key assumptions, theories, methodologies and mathematical modeling of power electronics. Students learn the functionalities and design of full and half wave rectifiers. Students learn to search, evaluate and select semiconductor components to design voltage controllers, choppers, power supplies, inverters, converters, drive circuits and heatsinks. Students learn to apply prior knowledge of concepts in mathematics to simulate the power electronic circuits in order to analyze the design. Prerequisite:EENG 3410 with a minimum grade of C
