Title :
Reignition phenomena after high-frequency current interruption with short vacuum gaps
Author_Institution :
Inst. fur Hochspannungstechnik, Tech. Hochschule Aachen, Germany
fDate :
8/1/1999 12:00:00 AM
Abstract :
Based on a large number of measurements of high-frequency (HF) current interruptions in vacuum at small contact gaps (⩽600 μm), the statistical reignition behavior of vacuum switching devices after a HF current zero is investigated. Three types of reignitions can be classified. Statistical evaluation of post-arc current measurements for different parameters at current zero and different HF current ignition processes gives information about the stress of the gap as a result of the transient recovery voltage after a HF current zero (HF-TRV) and the accumulated post-arc charge. Comparing post-arc current values at the beginning of the HF-TRV and at the moment of reignition reveals a production of charge carriers during the recovery interval. Possible reasons for the different types of reignitions are discussed
Keywords :
circuit-breaking arcs; plasma switches; plasma transport processes; vacuum arcs; HF current ignition processes; HF current zero measurement; charge carrier production; gap stress; high-frequency current interruption; late restrikes; multiple reignition; post-arc charge; post-arc current; post-arc current measurements; recovery interval; reignition phenomena; short vacuum gaps; statistical evaluation; transient recovery voltage; vacuum circuit breaker; vacuum switching devices; Capacitance; Circuit breakers; Current measurement; Dielectric breakdown; Frequency; Hafnium; Interrupters; Stress; Vacuum breakdown; Voltage;
Journal_Title :
Plasma Science, IEEE Transactions on
