Title :
GaN on Si Technologies for Power Switching Devices
Author :
Ishida, Makoto ; Ueda, Toshitsugu ; Tanaka, T. ; Ueda, Daisuke
Author_Institution :
Automotive & Ind. Syst. Co., Corp. Eng. Div., Green Innovation Dev. Center, Panasonic Corp., Nagaokakyo, Japan
Abstract :
This paper reviews the recent activities for normally-off GaN-based gate injection transistors (GITs) on Si substrates and their application to inverters. Epitaxial growth of the AlGaN/GaN heterostructures with good crystallinity over 200-mm Si substrates with eliminated bowing enables low-cost fabrication of GaN devices with high breakdown voltages. A novel normally-off GaN transistor called as GIT is proposed in which hole injection from the p-type AlGaN gate increases the drain current with low on-state resistance by conductivity modulation. The low on-state resistance in GaN-based devices greatly helps to increase the efficiency of power switching systems. A GaN-based three-phase inverter successfully drives a motor with high efficiency of 99.3% at a high output power of 1500 W. The presented GaN-based devices are expected to greatly help saving energy in the future as an indispensable power switching system.
Keywords :
III-V semiconductors; elemental semiconductors; epitaxial growth; gallium compounds; invertors; power semiconductor switches; power transistors; semiconductor growth; silicon; wide band gap semiconductors; AlGaN-GaN; Si; conductivity modulation; drain current; epitaxial growth; high breakdown voltages; indispensable power switching system; low on-state resistance; low-cost fabrication; normally-off-based gate injection transistors; power 1500 W; power switching devices; three-phase inverter; Electronic switching systems; gallium nitride; gate injection transistors; inverters; power transistors;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2013.2268577
