A UK startup is to ship its first 1200V power devices using a new silicon architecture called Bizen that fits into TO247 or TO263 packages. by Nick Flaherty @ eenewseurope.com
The first devices to use the Bizen process technology include three parts rated at 1200V/75A, 900V/75A and 650V/32A, available in the industry-standard TO247 or TO263 power MOSFET packages. These are made using standard silicon substrates on conventional, larger-geometry silicon processing lines. The initial pilot line for testing the Bizen technology was set up at Semefab in Scotland.
To get this level of performance from traditional silicon-based MOSFETs, the device size must be much bigger. 1200V/75A in a TO247 housing can be achieved using wide bandgap materials like silicon carbide, but this approach has other well-known issues,” said David Summerland, CEO and founder of Nottingham-based Search For The Next (SFN) which developed the Bizen technology. This is being used for the parts, called Quantum Junction Transistors (QJT), from subsidiary Wafertrain.
“SiC, for example, takes much longer to process and has a significant manufacturing carbon footprint. Also, regardless of the roadmaps, SiC does not scale like silicon, and the economic argument that SiC can match silicon does not take into account the advances made possible by Bizen. By contrast, the data we have obtained from physical wafer tests proves that by using Bizen on silicon substrates, our QJTs deliver the same performance as SiC or GaN. Yet the production equipment required to make a QJT is exactly the same as for a standard silicon MOSFET, and the Bizen process adds no extra manufacturing complexity.
Bizen applies quantum tunelling to a traditional bipolar wafer process. The result is a very rugged and reliable device with the heritage and pedigree of traditional bipolar silicon technology. Bizen also reduces leadtimes from 15 weeks for a CMOS device (although not a SiC MOSFET) to less than two weeks, and halves the number of process layers. The QJTs use these same eight-layer bipolar process.