Title :
Long-delayed breakdown in vacuum gaps under DC pulses
Author_Institution :
Calor-Emag AG, Ratingen, Germany
fDate :
8/1/1993 12:00:00 AM
Abstract :
Concerning HV insulation in vacuum, there is still some uncertainty about the processes leading to breakdown, especially in the case of long time lags and large contact spacing. The present measurements show that mechanical shocks cause breakdown of the gap. Breakdown probability is highest for virgin contacts and decreases after heavy arcing. The role of nonmetallic inclusions and organic impurities is highlighted. In comparison with a demountable vacuum device industrial vacuum interrupters do not show any sensitivity to mechanical shocks. Besides breakdown probabilities and time lags, the temporal development of voltage and current during breakdown was measured. For a contact spacing of >14 mm and for breakdown sites located on the side face of the contacts, HV discharges were observed lasting for ~500 μs. In this case, current is limited by a negative space charge layer in front of the anode
Keywords :
circuit breakers; circuit-breaking arcs; electric breakdown; vacuum insulation; HV discharges; HV insulation; arcing; breakdown probability; breakdown sites; contact spacing; mechanical shocks; negative space charge layer; nonmetallic inclusions; organic impurities; time lags; vacuum interrupters; Breakdown voltage; Current measurement; Electric breakdown; Electric shock; Impurities; Insulation; Interrupters; Mechanical variables measurement; Time measurement; Vacuum breakdown;
Journal_Title :
Electrical Insulation, IEEE Transactions on
