Title :
Breakdown mechanisms in a pulse-charged spark gap
Author :
Molen, G. Marshall ; Mazzola, Michael S.
Author_Institution :
Dept. of Electr. & Comput. Eng., Old Dominion Univ., Norfolk, VA, USA
Abstract :
The breakdown strength of a highly overvoltaged gas spark gap operating in air has been extensively investigated. The switch, which operated in a self-breakdown mode, was used to discharge a water Blumlein charged to peak voltages of 250 kV. At a charging rate of 20 kV/μs, overvoltages greater than a factor of three were measured at a pressure of 1 atmosphere. With UV preionization, the overvoltage was substantially reduced. A comprehensive model has been developed that precisely relates the DC and pulse-charge breakdown voltage in terms of the statistical delay and the streamer transit time. The dependence of these contributions over a pressure range of 1 to 5.5 atmospheres was considered. The statistical delay, which was eliminated with preionization, was inversely proportional to pressure and could be related to an effective surface roughness
Keywords :
electric breakdown of gases; spark gaps; 1 to 5.5 atm; 250 kV; DC breakdown voltage; UV preionization; air; breakdown strength; effective surface roughness; highly overvoltaged gas spark gap; pulse-charge breakdown voltage; pulse-charged spark gap; self-breakdown mode; statistical delay; streamer transit time; water Blumlein; Atmosphere; Atmospheric measurements; Atmospheric modeling; Delay effects; Electric breakdown; Pressure measurement; Sparks; Surges; Switches; Voltage;
Conference_Titel :
Power Modulator Symposium, 1988. IEEE Conference Record of the 1988 Eighteenth
Conference_Location :
Hilton Head, SC
DOI :
10.1109/MODSYM.1988.26271
