The demand for silicon carbide (SiC) MOSFETs and diodes is growing rapidly, particularly within automotive, industrial, and energy applications due to the improved efficiency, superior power density, and lower system costs. Learn how to approach your design correctly, make all the right considerations and select the optimum SiC MOSFET for your system from the largest, global and vertically integrated supplier of silicon carbide technologies.
Learn how the considerations for silicon and silicon carbide differ and the simple steps to take advantage of silicon carbide’s high efficiency and power density. The next installment of Wolfspeed’s Designer’s Guide to Silicon Carbide Power webinar series focuses on modeling common topologies using SiC MOSFETs.
In high power applications, Silicon Carbide MOSFETs can enable lower losses with faster switching speeds than their silicon counterparts, and to maximize those gains you’ll need to drive them effectively. Learn more about the nuances of designing SiC gate drive circuits in the next installment of Wolfspeed’s Designer’s Guide to Silicon Carbide Power: Gate Drive Considerations.
From watts to megawatts Wolfspeed SiC has enabled countless applications across automotive, industrial and energy markets. Wolfspeed SiC is all around. This webinar will highlight several common applications and review why designers are increasingly selecting SiC over incumbent technologies.
Now that silicon carbide has been established as a transformative technology, many power designers are focusing on SiC device level qualification, reliability and consistency of supply. Wolfspeed is leading the pack with comprehensive proven product reliability across its entire vertical supply chain, ensuring that the unprecedented market demand for SiC can be realized throughout the next decade and beyond.