Toshiba to Expand Power Semiconductor Production Capacity With 300-Millimeter Wafer Fabrication Facility
Power devices are essential components for managing and reducing power consumption in every kind of electronic equipment, and for achieving a carbon neutral society. Current demand is expanding on vehicle electrification and the automation of industrial equipment, with very strong demand for low-voltage MOSFETs (metal oxide semiconductor field effect transistors) and IGBTs (insulated-gate bipolar transistors) and other devices. To date, Toshiba has met this demand growth by increasing production capacity on 200-milimeter lines, and expediting the start of production on 300-milimeter production lines from the first half of fiscal 2023 to the second half of fiscal 2022. Decisions on the new fab’s overall capacity and equipment investment, the start of production, production capacity and production plan will reflect market trends.
The new fab will have a quake absorbing structure; enhanced BCP systems, including dual power supply lines; and the latest energy saving manufacturing equipment to reduce environmental burdens. It will also aim to achieve the “RE100” goal of 100% reliance on renewable energy. Product quality and production efficiency will be improved by introducing artificial intelligence and automated wafer transportation systems.
Going forward, Toshiba will expand its power semiconductor business and boost competitiveness by timely investments and research and development that will allow it to respond to fast growing demand, and to contribute to a low-energy society and carbon neutrality.
Schedule (Plan)
Construction start: Spring, 2023
Construction complete: Spring, 2024
Production start: within fiscal 2024
Overview of Kaga Toshiba Electronics Corporation
Location: 1-1, Iwauchi-cho, Nomi-shi, Ishikawa Prefecture, Japan
Establishment: December, 1984
President and Representative Director: Hideo Tokunaga
Employees: Approx. 1,000 (as of September 30, 2021)
Main Products: Discrete semiconductors (power semiconductors, small-signal devices and optoelectronic devices)