Y. Sano | Researchain

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international electron devices meeting | 2013

Low V f and highly reliable 16 kV ultrahigh voltage SiC flip-type n-channel implantation and epitaxial IGBT

Yoshiyuki Yonezawa; Tomonori Mizushima; Kensuke Takenaka; Hiroyuki Fujisawa; Tomohisa Kato; Shinsuke Harada; Yasunori Tanaka; Mitsuo Okamoto; Mitsuru Sometani; Dai Okamoto; Naoki Kumagai; Shinichiro Matsunaga; Tadayoshi Deguchi; Manabu Arai; Tetsuo Hatakeyama; Youichi Makifuchi; Tsuyoshi Araoka; Naoyuki Oose; Takashi Tsutsumi; Mitsuru Yoshikawa; Katsumi Tatera; Masayuki Harashima; Y. Sano; Eisuke Morisaki; Manabu Takei; Masaaki Miyajima; Hiroshi Kimura; Akihiro Otsuki; Kenji Fukuda; Hajime Okumura

Flip-type n-channel implantation and epitaxial (IE)-IGBT on 4H-SiC carbon face with an epitaxial p++ collector layer was investigated. In this study, we employed the IEMOSFET as a MOSFET structure with original wet gate oxidation method, to realize high channel mobility. We were able to achieve an ultrahigh blocking voltage of more than 16 kV, extremely low forward voltage drop of 5 V at 100 A/cm2 and small threshold voltage shift (<; 0.1 V). These characteristics are useful for Smart Grid and HVDC systems, the use of which would realize a low carbon emission society.

international symposium on power semiconductor devices and ic's | 2014

Dynamic characteristics of large current capacity module using 16-kV ultrahigh voltage SiC flip-type n-channel IE-IGBT

Tomonori Mizushima; Kensuke Takenaka; Hiroyuki Fujisawa; Tomohisa Kato; Shinsuke Harada; Yasunori Tanaka; Mitsuo Okamoto; Mitsuru Sometani; Dai Okamoto; Naoki Kumagai; Shinichiro Matsunaga; Tadayoshi Deguchi; Manabu Arai; Tetsuo Hatakeyama; Youichi Makifuchi; Tsuyoshi Araoka; Naoyuki Oose; Takashi Tsutsumi; Mitsuru Yoshikawa; Katsumi Tatera; Atsushi Tanaka; S. Ogata; Koji Nakayama; Toshihiko Hayashi; Katsunori Asano; Masayuki Harashima; Y. Sano; Eisuke Morisaki; Manabu Takei; Masaaki Miyajima

4H-SiC carbon face flip-type n-channel implantation and epitaxial (IE)-IGBT with an epitaxial p++ substrate was developed and its switching test was carried out. We were able to achieve an ultrahigh blocking voltage greater than 16 kV, extremely low Von (6.35 V at 20 A), and good temperature stability. The switching operation was achieved by connecting three IGBTs in parallel, with a total ICE of 60 A and VCE 5 kV. The turn-off loss and turn-on loss were about 220 mJ and 120 mJ, respectively at room temperature. They show low switching loss of ultrahigh voltage SiC IE-IGBT and the possibility of large scale module with parallel connection.

Archive | 1998