
Discover why power electronics is a key specialization for aspiring engineers. The course outlines hot areas, essential skills, and how these boost employability and job prospects in tackling climate change.
Explore how electric vehicles rely on lithium-ion batteries, ac motors, and power converters to deliver performance and regenerative braking efficiency.
Explore how smart grids use sensing, remote monitoring, supervisory control, and power electronics to enable fast protection and renewables integration.
Explore how renewable energy sources like solar and wind rely on power converters to maximize output and maintain grid stability and power quality.
Master hardware prototyping by integrating fabrication, power converters, and digital controllers to build a working, isolated system. Develop pcb design and microcontroller programming to boost employability.
Learn to model, analyze, and design controllers for power converters, including multi-converter systems and smart grids, using linear algebra and systems theory to ensure desired performance.
This course is for young people in high school or junior undergraduates who are examining their career options and are interested in what the power engineer sector has to offer. The course describes some of the most popular applications of power electronics and the opportunities that will open up to a skilled power electronics engineer. Power electronics is a potential weapon to battle climate change which is the greatest threat facing us at present. Therefore, young bright minds must consider becoming experts in power electronics and associated technologies to lead the change in the decades to come.
The course does not contain any technical details about power electronics but rather the purpose is to describe the potential of power electronics in the years to come. The course describes in very broad and non-technical terms a few application areas such as electric vehicles, smart grids and renewable energy integration. Primarily, the challenges and opportunities in these application areas is described.
The course describes how power electronics is a great source of very challenging jobs with immense growth potential. Jobs in power electronics can range from manufacturing and installation to design and research. The course describes some of the skills that a power electronics engineer will acquire and how these skills help in seeking employment. The course describes how even the hottest topics such as Artificial Intelligence and Machine Learning are also being applied in power electronics. Therefore, power electronics is a domain that offers every kind of exposure to a young and talented engineer who is willing to learn.