Analysis and design of linear regulators, inverters, DC-DC converters, different topologies of converters, efficiencies of power conversion circuits, transformers and magnetic design, power semiconductor devices, power factor and power factor correction.
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Course Learning Outcomes: Course Learning Outcome Assessment Ability to mathematically analyze a power electronic circuit containing switches, capacitors, diodes, inductors (such as an up/down converter) Homework Final:Essay/written Ability to use computer-aided-design tools for the analysis of power electronic circuits. Homework Lab work Ability to design a power electronic circuit using computer-aided design tools satisfying the requirements Homework Project Ability to characterize a power ele
Review of Electric Circuits Review of Magnetic Circuits DC to DC switch mode converters DC to DC switch mode converters Buck, Boost, Flyback converters Analysis and design of inductors and transformers Analysis and design of inductors and transformers DC to sinusoidal AC DC to sinusoidal AC Line frequency AC to Uncontrolled DC Line frequency AC to Uncontrolled DC Line frequency AC to Controlled DC Line frequency AC to Controlled DC ECTS - Workload Table: Activities Number Hours Workload Preparation for Final exam 1 25 25 Homework 5 5 25 Project (including preparation and presentation if applicable) 2 20 40 Course hours 14 3 42 Laboratory (including preparation) 2 4 8 Final exam 1 3 3 Total Workload: 143 Total Workload / 30: 143 / 30 4.77 ECTS Credits of the Course: 5 Type of Course: Lecture Course Material: LTSpice, Diptrace