Analysis
ON Semiconductor Joins imec’s GaN-on-Si Research Program
ON Semiconductor has joined the multi-partner, industrial research and development program at imec, a leading nanoelectronics research center, to collaborate on the development of next-generation Gallium Nitride on silicon power devices.
GaN Imec’s broad-scale research program is focused on developing GaN-on-Si technology on 200 mm wafers, as well as reducing the cost and improving the performance of GaN devices. By bringing together leading integrated device manufacturers, foundries, compound semiconductor companies, equipment suppliers and substrate suppliers, imec has been successful in achieving significant technical advancements.
Last year, imec’s research program successfully produced 200 mm GaN-on-Si wafers, bringing processing within reach for standard high-productivity 200 mm fabs. Moreover, imec developed a fabrication process compatible with standard CMOS processes and tools, the second prerequisite for cost-effective processing.
“As a top 20 global semiconductor supplier with a portfolio focused on energy efficient devices, ON Semiconductor has been researching GaN silicon technologies for several years and is presently building a GaN processing line in its Oudenaarde facility in Belgium,” said Hans Stork, senior vice president and Chief Technology Officer at ON Semiconductor. “Partnering with imec will help strengthen our current market position and potentially assist us in adding a competitive leading-edge technology to our customer offerings. We look forward to collaborating with a broad consortium of like-minded companies on forward-looking research in this field.”
According to Rudi Cartuyvels, vice president of smart systems and energy technology at imec: “Extraordinary developments continue to emerge from our GaN-on-Si Affiliation Program, creating further inroads to drive down production costs The newest addition, of ON Semiconductor as a strategic program partner, further advances our collective expertise. Leveraging joint efforts will help us overcome the next hurdle toward economical volume manufacturing, ultimately bringing GaN power devices to the market.”