1200 V Discrete Silicon Carbide Schottky Diodes

Wolfspeed Silicon Carbide MOSFETs address many power design challenges by providing devices with low on-resistance, very low output capacitance, and low source inductance for a perfect blend of low switching losses and low conduction losses. Read on to learn how these advantages are applied in higher-power unidirectional OBCs.

This article highlights the direct impact of new global efficiency standards and the undisputed need for Silicon Carbide as the enabling semiconductor technology that has the capacity to meet these standards for high efficiency and reliability. Wolfspeed not only helps designers meet the latest standards but plan for upcoming requirements in their development roadmaps across key applications, including motors, switch-mode power supplies and EV charging infrastructures.

Wolfspeed’s SpeedFit is a powerful online simulator that allows designers to quickly evaluate different power conversion topologies and Silicon Carbide (SiC) devices. The platform is best utilized early in a design cycle to analyze design tradeoffs between different topologies, estimate semiconductor losses and junction temperatures, as well as identifying the best Silicon Carbide (SiC) MOSFETs and Silicon Carbide (SiC) diodes to use in a given design. This saves a great deal of time by reducing the need to sort through datasheets and calculate device losses to select an optimized device. The SpeedFit tool supports numerous power conversion topologies for DC-DC, AC-DC, and DC-AC to support a wide range of applications. This whitepaper will explore some of the topologies including newly added options and demonstrate how SpeedFit can be used to evaluate different device packages and paralleling options.