Through flexible course options, students enrolled in the Power Electronics (PPE) subplan of our Professional Master's Program may pursue a 9-credit hour certificate or a 30-credit hour MS degree. The ...

Power electronics is a key enabling technology in essentially all electronic systems and is increasingly important in the grid interface of renewable energy sources and in efficient electrical loads.

Testing is one of the most complex and critical parts of any new product or system development process. If debugging plays a fundamental role in improving the reliability of the product, analyzing its ...

In power electronics applications, the compound semiconductor silicon carbide (SiC) has been demonstrated in published literature [1] to be a superior material to silicon (Si) in many properties for ...

Tolerating heat and helping to reduce it are both attributes that sintering offers as an alternative to soldering in power electronics applications. Doing more with less and, of course, packing more ...

Power density plays a critical role in making power electronic systems smaller, more efficient, and more cost-effective. As power density increases, so does the heat generated inside a device.