Title :
Multilayer high gradient insulator technology
Author :
Sampayan, S.E. ; Vitello, P.A. ; Krogh, M.L. ; Elizondo, J.M.
Author_Institution :
Lawrence Livermore Nat. Lab., CA, USA
fDate :
6/1/2000 12:00:00 AM
Abstract :
We are investigating a novel insulator concept that involves the use of alternating layers of conductors and insulators with periods on the order of <1 mm. These structures perform many times better (~1.5 to >4× higher breakdown electric field strength) than conventional insulators in long pulse, short pulse, and alternating polarity applications. A previously defined scaling law of d0:5 , where d is the insulator length, appears to apply to these new structures when the scaling parameter d is replaced by the layer period d1. This observation implies that each layer within the structure behaves independently in the breakdown process. We present our ongoing studies investigating the degradation of the breakdown electric field strength resulting from surface roughness, the effect of gas pressure, and the performance of the insulator structure under bipolar stress. Further, we present our initial work on scaling and modeling studies
Keywords :
composite insulating materials; composite insulators; electric breakdown; electric strength; flashover; multilayers; surface discharges; surface topography; vacuum insulation; 1 mm; 1E-6 to 1E-5 Pa; alternating polarity applications; bipolar stress; breakdown electric field strength; conductor/insulator alternating layers; gas pressure; insulator length; layer period; long pulse application; modeling; multilayer high gradient insulator technology; scaling law; scaling parameter; short pulse applications; surface flashover; surface roughness; Coatings; Dielectrics and electrical insulation; Electric breakdown; Electrodes; Gold; Metal-insulator structures; Nonhomogeneous media; Rough surfaces; Surface roughness; Voltage;
Journal_Title :
Dielectrics and Electrical Insulation, IEEE Transactions on
