Controlling power converters is an essential component in maximizing the overall performance of power-conversion systems. Effective management of power converters can lead to enhanced component life, ...

Scientists have developed a ground-breaking piezoelectric-based DC-DC converter that unifies all power switches onto a single chip to increase power density. This new power topology, which extends ...

Maintaining control of a power converter is paramount to maximizing its efficiency, reducing energy losses and improving the life of the component. Proper control optimizes the overall performance of ...

DC-DC power converters play a critical role in modern electrical systems by electronically transforming a direct current at one voltage level to another, thereby enabling efficient energy distribution ...

Designers parallel their power supplies to increase system power output or to provide fault tolerance. In this column, Contributing Editor Tom Curatolo discusses various techniques for load sharing ...

Electromagnetic interference (EMI) remains a critical challenge in the design and operation of power converters, where high‐frequency switching is integral to power conversion. The generation of ...

The three-level, three-phase SiC AC-DC architecture. T-type inverter and T-Type inverter with SiC MOSFETs topologies. Totem-pole topology implemented with SiC or GaN. High power density has steadily ...