Title :
A 13.56 MHz wireless power transmission systems with enhancement-mode GaN high electron mobility transistors
Author :
Nakakohara, Yusuke ; Kashiwagi, Junichi ; Fujiwara, Toshihito ; Akutsu, Minoru ; Ito, Noboru ; Chikamatsu, Kentaro ; Yamaguchi, Akira ; Nakahara, Kouji
Author_Institution :
R&D Headquarters, Rohm Co., Ltd., Kyoto, Japan
Abstract :
Enhancement-mode GaN-HEMT devices with a newly developed recessed-gate structure were fabricated. These devices were capable of operating at up to 30 MHz switching. A wireless power transmission (WPT) was adopted for a potential application of these GaN devices, because high-frequency (f) switching devices are expected to improve the power-transfer efficiency (η) of the WPT. A GaN-based E-class amplifier WPT system achieved 10W output power and η =63.5 % under the operating conditions of f =13.56 MHz, duty=50%, and a load resistance of 10Ω.
Keywords :
III-V semiconductors; high electron mobility transistors; inductive power transmission; power amplifiers; semiconductor device manufacture; wide band gap semiconductors; E-class amplifier WPT system; HEMT; frequency 13.56 MHz; frequency 30 MHz; high electron mobility transistors; high-frequency switching devices; power 10 W; recessed-gate structure; resistance 10 ohm; wireless power transmission systems; Aluminum gallium nitride; Gallium nitride; HEMTs; MODFETs; Resistance; Switches; Wireless communication; Enhancement-mode; GaN-HEMT; Wireless power transmission; high frequency;
Conference_Titel :
Future of Electron Devices, Kansai (IMFEDK), 2013 IEEE International Meeting for
Conference_Location :
Suita
Print_ISBN :
978-1-4673-6106-4
DOI :
10.1109/IMFEDK.2013.6602268
