| This course introduces the fundamental principles and applications of power electronics for energy conversion and control. Students study power semiconductor devices, converter topologies, and control techniques used in rectifiers, inverters, and DC-DC converters. Emphasis is placed on the design, analysis, and optimization of power electronic circuits, including trade-offs among efficiency, power factor, harmonic distortion, and reliability. The course includes a substantial laboratory component in which students build, test, and troubleshoot power electronic systems using modern instrumentation and simulation tools. Students develop practical skills in experimental analysis, performance evaluation, and safe operation of high-voltage and high-current systems while strengthening critical thinking and engineering problem-solving abilities. **This is a pilot course and must undergo review by the Curriculum Committee NLT AY28-1 to continue.** |