Title :
High speed and high resolution diagnostics for the early phase of dielectric surface flashover
Author :
Hegeler, F. ; Masten, G. ; Krompholz, H. ; Hatfield, L.
Author_Institution :
Texas Tech. Univ., Lubbock, TX, USA
Abstract :
With a novel experimental setup, emphasizing high-speed and high-resolution electrical and optical diagnostic methods, the authors attempted to elucidate the physical mechanisms leading to surface flashover in vacuum. The device used a cable discharge into an impedance matched, coaxial, surface flashover test chamber in a micro-torr vacuum, operated in self-breakdown mode with a DC charging voltage. Preflashover current, breakdown voltage, luminosity, and soft X-rays were measured for different dielectric materials. In addition, DC magnetic fields were applied. Preliminary results indicated the existence of a secondary electron avalanche above the surface and electron stimulated outgassing before flashover occurred
Keywords :
X-ray emission spectra; desorption; electron avalanches; flashover; insulation testing; secondary electron emission; surface discharges; vacuum insulation; DC magnetic fields; breakdown voltage; cable discharge; coaxial test chamber; dielectric surface flashover; early phase; electron induced gas desorption; electron stimulated outgassing; high resolution diagnostics; high-speed diagnostics; impedance matched; luminosity; preflashover current, solid/vacuum interface; secondary electron avalanche; self-breakdown mode; soft X-rays; vacuum; Automatic testing; Coaxial cables; Electrons; Flashover; High speed optical techniques; Magnetic field measurement; Surface charging; Surface discharges; Surface impedance; Voltage;
Conference_Titel :
Electrical Insulation, Conference Record of the 1992 IEEE International Symposium on
Conference_Location :
Baltimore, MD
Print_ISBN :
0-7803-0649-X
DOI :
10.1109/ELINSL.1992.247006
