Power electronics is about moving energy between different voltage and current forms efficiently — taking a DC source and stepping it up, down, or inverting it to AC, while wasting as little as possible in the switches and magnetics that make it happen. You'll spend the semester deriving converter waveforms by hand (buck, boost, flyback, rectifiers, inverters), simulating them in LTSpice, designing your own inductors and transformers, and laying out a working PCB in Diptrace that you actually characterize on the bench. It sits at the bridge between the circuits/electromagnetics core and real hardware design, and it's the course that makes power supplies, motor drives, and renewables stop feeling like black boxes.
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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