1. High dI/dT light-triggered thyristors
- Author
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Y.C. Kao, D.L. Miller, J.X. Przybysz, and S.G. Leslie
- Subjects
Record value ,Materials science ,business.industry ,Electrical engineering ,Thyristor ,Electronic, Optical and Magnetic Materials ,Power (physics) ,law.invention ,Microsecond ,law ,Etching ,Power electronics ,Optoelectronics ,Commutation ,Electrical and Electronic Engineering ,Resistor ,business - Abstract
Directly light-triggered, 4000- and 6000-V thyristors were designed, fabricated, and tested to obtain high performance in dI/dt, dV/dt, and photosensitivity. Built-in resistors protected both auxiliary stages during high dI/dt turn-on. The novel use of etched moats to define the resistors was compatible with an optical gate structure that gives high dV/dt and good photosensitivity. No additional processing steps were needed to fabricate these devices, as compared to standard light-triggered thyristors. A record value of 1000 A/µs at 60 Hz was measured on a 6000-V thyristor, and 850 A/µs was safely triggered with only 1.8 mW of light. The dV/dt immunity of the photogate structure measured 4000 V/µs, rising exponentially to 80 percent of 4000 V, V DRM . Thyristors triggered by dV/dt were not destroyed. A new model of resistor heating was combined with the first measurements of the current pulses through both built-in resistors to identify the mechanism responsible for occasional burn-out of the second resistor. The failure mechanism was conductivity modulation in the surface of the resistor during its microsecond on-time caused by thermally generated carriers. The test results confirmed the utility of built-in resistors for high dI/dt performance with minimal light power and for nondestructive dV/dt triggering.
- Published
- 1987
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