Features • Third-generation SiC MOSFET technology • High blocking voltage, low on-resistance • Low-capacitance, high-speed switching • Fast intrinsic diode with low reverse recovery (Qrr) Applications • Data center and telecom power supplies • Electric vehicle battery chargers • High-voltage DC/DC converters • Energy storage systems • Solar inverters Benefits • Reduced switching losses and minimized gate ringing • Improved system efficiency • Lower cooling requirements • Increased power density • Higher system switching frequency

SiC Schottky Barrier Rectifier Features: • Reverse withstand voltage: 650 V • Zero reverse recovery current • High operating frequency • Switching characteristics unaffected by: – Temperature • Fast switching speed • Positive temperature coefficient of forward voltage drop Applications: • Switch-mode power supplies, AC/DC converters • Power factor correction • Motor drives • Photovoltaic inverters and wind turbines Advantages: • Extremely low switching losses • Higher efficiency • Reduced dependence on heat sinks • No thermal runaway when devices are paralleled

SiC Schottky Barrier Rectifier Features: • Reverse withstand voltage: 650 V • Zero reverse recovery current • High operating frequency • Switching characteristics unaffected by: – Temperature • Fast switching speed • Positive temperature coefficient of forward voltage drop Applications: • Switch-mode power supplies, AC/DC converters • Power factor correction • Motor drives • Photovoltaic inverters and wind turbines Advantages: • Extremely low switching losses • Higher efficiency • Reduced dependence on heat sinks • No thermal runaway when devices are paralleled

SiC Schottky Barrier Rectifier Features: • Reverse withstand voltage: 650 V • Zero reverse recovery current • High operating frequency • Switching characteristics unaffected by: – Temperature • Fast switching speed • Positive temperature coefficient of forward voltage drop Applications: • Switch-mode power supplies, AC/DC converters • Power factor correction • Motor drives • Photovoltaic inverters and wind turbines Advantages: • Extremely low switching losses • Higher efficiency • Reduced dependence on heat sinks • No thermal runaway when devices are paralleled