Driving down the on resistance of silicon carbide transistors

December 13, 2019 //By Nick Flaherty
UnitedSiC has developed silicon carbide SiC transistors in standard packages with the world's lowest on resistance. Chris Dries, CEO, talks to Nick Flaherty about the significance of the move.
UnitedSiC has developed silicon carbide transistors in standard packages with the world's lowest on resistance. Chris Dries, CEO, talks to Nick Flaherty about the significance of the move.

UnitedSiC has launched four silicon carbide SiC transistors with the world's lowest on resistance RDS(on) to open up new applications. 

“What we are doing is pretty incredible for the industry with an on resistance on under 10 mΩ in a standard package,” said Chris Dries, CEO of United SIC, talking to eeNews Power. “This is a real milestone for United SiC. The flagship market for us is electric vehicles, particularly in traction, but circuit protection is a new area now enabled by the low rds on,” he said.

Of the four new SiC FET devices, one is rated at 650V with RDS(on) of 7 mΩ and three rated at 1200V with RDS(on) of 9 and 16 mΩ. These are available in a TO247 package with three or four pins.

“This is an extension of the third generation platform – the maturation of the process in the fab enables us to go to these large die at high volume” said Dries. “We have created two different types of FET depending on the switching speeds – the UJ3C is general purpose that is easy as a drop in replacement, while the UF fast parts are designed for high performance hard switched.”

This comes from the design of the parts, which uses a silicon MOSFET, or cascode, alongside a JFET built in silicon carbide. “The silicon cascode MOSFET that we make is stacked on top of the JFET,” he said. “The way we are able to do it is because the underlying technology of the JFET – RDS(on) per unit area – at 1200V our specific on resistance is half at 1200V and at 650V is a quarter. That’s the key differentiator that allow us to do this where other cannot."

Next: Combining silicon and SiC


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