STMicroelectronics has introduced five silicon carbide (SiC) MOSFET-based high-power modules for electric vehicles (EV) that improve performance and driving range. The new SiC power modules cover a ...

Adoption of silicon carbide (SiC) is becoming more widespread among electric-vehicle (EV) systems such as dc-dc converters, traction inverters, and on-board chargers (OBCs) with bidirectional ...

Navitas Semiconductor has announced the launch of its new SiCPAK™ power modules, which utilize innovative epoxy-resin potting technology alongside proprietary trench-assisted planar SiC MOSFET ...

While the electric-vehicle market continues to grow, challenges remain to achieve widespread adoption. One trend to address those issues is the development of 800-V EV bus drive systems based on ...

Automotive designers face challenges in the move to zero-emissions vehicles like hybrid and electric vehicles, including optimizing energy efficiency, increasing vehicle range, and reducing battery ...

A stacked DBC packaging method utilizes mutual inductance cancellation effects to significantly reduce parasitic inductance. With the current path increased by one-fold, SiC power modules allow for ...

In the first part of this blog, we had a look at how energy-efficient high-power modules contribute to the decarbonization of railway transportation. This part will focus on the future of traction: ...