Title :
Degassing of materials inside a vacuum interrupter, measurements by residual-gas analysis and calculations
Author :
Gentsch, Dietmar ; Dullni, Edgar
Author_Institution :
ABB Calor Emag Schaltanlagen AG, Ratingen, Germany
Abstract :
Materials of vacuum interrupters have to be almost free of gases, since these determine the quality of the vacuum inside the interrupter. In order to support the development of interrupters and to control the production process, the residual gases inside a sealed-for-life interrupter were investigated. Also, the temporal increase of pressure in a pumped vacuum system after high current interruption was measured. The residual-gas analyzer consists of an Omegatron detector in UHV apparatus, which can be connected to the vacuum interrupter. This technique is used to detect the inner gas sources and to investigate the diffusion of gases from materials in a vacuum. The degassing of stainless steel is measured and compared with theory. A numerical calculation describes the complete process of degassing during the soldering of a vacuum interrupter
Keywords :
circuit-breaking arcs; electric breakdown; insulation testing; numerical analysis; switchgear testing; vacuum arcs; vacuum breakdown; vacuum interrupters; vacuum techniques; Omegatron detector; UHV apparatus; arcing gases; inner gas source detection; materials degassing; measurements; numerical calculation; pumped vacuum system; residual-gas analysis; sealed-for-life interrupter; temporal pressure increase; vacuum interrupter; Current measurement; Detectors; Gases; Interrupters; Pressure measurement; Process control; Production; Steel; Vacuum systems; Vacuum technology;
Conference_Titel :
Discharges and Electrical Insulation in Vacuum, 1996. Proceedings. ISDEIV., XVIIth International Symposium on
Conference_Location :
Berkeley, CA
Print_ISBN :
0-7803-2906-6
DOI :
10.1109/DEIV.1996.545370
