Title :
6000-V gate turn-off thyristors (GTOs) with n-buffer and new anode short structure
Author :
Ogura, Tsuneo ; Kitagawa, Mitsuhiko ; Nakagawa, Akio ; Ohashi, Hiromichi
Author_Institution :
Toshiba Corp., Kawasaki, Japan
fDate :
6/1/1991 12:00:00 AM
Abstract :
6000-V gate-turn-off thyristors (GTOs) were developed for high-power inverters and choppers. In order to attain a high blocking voltage simultaneously with low turn-on and turn-off losses, a combination of an n-buffer layer and a cylindrical anode short structure was implemented. A 500-μm n-base width, achieved by the n-buffer structure, can decrease turn-on loss to approximately 2/3 that of a conventional anode short structure. The proposed structure is effective in sweeping away excess carriers during turn-off transient without increasing the on-state voltage very much. An average anode current of 200 A can be continuously switched at a 900-Hz operational frequency by a 33-mm-diameter device. A simultaneous diffusion process for p-base and n-buffer layers was proposed and implemented to realize the newly developed device structure
Keywords :
thyristors; 200 A; 33 mm; 500 micron; 6 kV; 900 Hz; anode current; anode short structure; gate turn-off thyristors; high blocking voltage; high-power inverters; n-buffer; on-state voltage; operational frequency; sweeping away excess carriers; turn-off losses; turn-on loss; Anodes; Choppers; Content addressable storage; Diffusion processes; Frequency; Impurities; Inverters; Low voltage; Power system transients; Thyristors;
Journal_Title :
Electron Devices, IEEE Transactions on
