Title :
Experimental and numerical investigations of 13-kV diodes and asymmetric light-triggered thyristors
Author :
Schulze, H.-J. ; Niedernostheide, F.-J. ; Kellner-Wedehausen, U. ; Scheider, C.
Author_Institution :
Infineon Technol. AG, Munich
Abstract :
Diodes and asymmetric thyristors with a blocking capability of 13 kV can be used with great benefit in various applications such as high-voltage direct current transmission, flexible alternate current transmission, or the wide field of pulsed-power applications. We have fabricated first test diodes and direct light-triggered asymmetric thyristors designed for such applications. Characteristic design features of both devices are described and their typical static and dynamical features are presented. In the 13-kV diodes, a recently proposed buried field stop layer was implemented. First test measurements confirmed the predicted improvement of the reverse recovery behavior of a diode provided with such a buried field stop layer. The main challenge in designing the asymmetric thyristor pertained to the integration of a direct light-triggering function, and overvoltage protection
Keywords :
HVDC power transmission; diodes; flexible AC transmission systems; overvoltage protection; power semiconductor devices; pulsed power supplies; testing; thyristor applications; 13 kV; alternate current transmission; asymmetric light-triggered thyristors; buried field stop layer; diodes; high-voltage direct current transmission; overvoltage protection; pulsed-power applications; reverse recovery behavior; Aluminum; Annealing; Diodes; Doping profiles; Fabrication; HVDC transmission; Protons; Testing; Thyristors; Voltage; Bipolar Device; HVDC; High Power Discrete Device; LTT (Light Triggering Thyristor); Thyristor;
Conference_Titel :
Power Electronics and Applications, 2005 European Conference on
Conference_Location :
Dresden
Print_ISBN :
90-75815-09-3
DOI :
10.1109/EPE.2005.219296
