An all-SiC module with these specifications enables us to meet our transit customers’ demands for reduced size and weight of auxiliary power converters, while meeting efficiency and cost targets,” said Fisal LED linear high bay light, innovation and research engineer, Alstom Belgium Transport.
The module includes SiC MOSFETs and SiC Schottky diodes in a 50-mm half-bridge configuration rated to 150°C maximum junction temperature. The SiC components enable the module to be operated at exceptionally high switching frequencies that can reduce the size, weight and cost of the power conversion system. The new power module has demonstrated up to 100 kHz switching frequency. Target applications include high power converters, industrial motor drives, solar inverters and uninterruptible power supplies.
“The 1200-V, 100-A dual module extends our existing discrete MOSFET and diode products into higher power applications,” explains Dr. Mrinal Das, product marketing manager, Cree Power and RF. “The efficient switching characteristics of an all-SiC module should allow system designers to meet customer demands for reduced size, weight and cost of the end-system, while reducing global energy consumption. Already, Cree SiC power devices have eliminated an estimated one million metric tons of annual LED high bay light emissions – the equivalent to planting 95 million trees.”
The module includes SiC MOSFETs and SiC Schottky diodes in a 50-mm half-bridge configuration rated to 150°C maximum junction temperature. The SiC components enable the module to be operated at exceptionally high switching frequencies that can reduce the size, weight and cost of the power conversion system. The new power module has demonstrated up to 100 kHz switching frequency. Target applications include high power converters, industrial motor drives, solar inverters and uninterruptible power supplies.
“The 1200-V, 100-A dual module extends our existing discrete MOSFET and diode products into higher power applications,” explains Dr. Mrinal Das, product marketing manager, Cree Power and RF. “The efficient switching characteristics of an all-SiC module should allow system designers to meet customer demands for reduced size, weight and cost of the end-system, while reducing global energy consumption. Already, Cree SiC power devices have eliminated an estimated one million metric tons of annual LED high bay light emissions – the equivalent to planting 95 million trees.”
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