Wide-Pulse Evaluation of 0.5 CM2 Silicon Carbide SGTO
Abstract
Silicon carbide Super-GTOs are being pursued by the Army as a replacement for current silicon-based, high-power pulse switches. In this study, 0.5 cm2 silicon carbide SGTOs were evaluated in an RLC pulse circuit which provided a half-sine shaped pulse at a width of 1 ms. The parameters assessed were peak current capability, 1000-shot reliability, and current sharing between parallel switches. SGTOs were pulsed as high as 1600 A, but 1250 A was found to be the most reliable and repeatable current level for most devices. This current waveform corresponds to an action of 850 A2s and a current density over the emitter area of 3.5 kA/cm2. SGTOs were pulsed for over 1000 single shots without any significant change in forward voltage drop. A pair of parallel SGTOs was pulsed up to a total of 2600 A, and repeatedly at 2500 A, with current sharing within plus - minus 1%. This paper details the evaluations of individual and paralleled devices which are being studied in preparation for future work with multichip modules.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jun 01, 2009
- Accession Number
- ADA609528
Entities
People
- Aderinto Ogunniyi
- Anant Agarwal
- Charles J. Scozzie
- Heather O'Brien
- Victor Temple
- William Shaheen
Organizations
- United States Army Research Laboratory