Improving the flashover voltage in a vacuum interface between a pulsed power system and a vacuum region has been a goal for many years. The interface problem is difficult because of the electrical, mechanical, and vacuum issues that must be satisfied simultaneously. In this paper, according to the theories of vacuum flashover and the design rules for high-electric-field insulators, a ceramic-insulated vacuum interface is presented. The electrostatic field along the ceramic surface was obtained by ANSYS simulations. By optimizing the field shaper and shielding rings, the electric fields were well distributed and the fields around the cathode and anode triple junctions were effectively controlled. The high-voltage test was carried out on an similar to 600-kV, similar to 100-ns pulser, and the results show that the vacuum interface can work stably with a holdoff E-field stress of 40 kV/cm. The experimental results agree with the theoretical and simulated results. Finally, the influence of the surface treatment on the ceramic flashover characteristics was also discussed.

• 出版日期2015-12
• 单位中国人民解放军国防科学技术大学