Title :
Triggered vacuum switch and air spark gap for pulsed power applications
Author :
Xiongying Duan ; Minfu Liao ; Ji-yan Zou ; Zhao, Chun
Author_Institution :
Sch. of Electr. Eng., Dalian Univ. of Technol., Dalian, China
Abstract :
The closing switch is the main device to control the power supply of an ElectroMagnetic Launcher (EML) system. Three types of closing switch which included a triggered vacuum switch (TVS) and two air spark gaps (ASGs) named ASG-1, ASG-2 and ASG-3 with different configuration in trigger unit were described for investigating the delay characteristics, high current capacity and erosion characteristics. A LC resonant circuit was set up and connected with the TVS´s and ASG´s main electrodes. A design circuit for controlling the TVS and ASGs was proposed. The trigger energy of the controller can be adjusted conveniently. By means of changing the trigger energy, the experimental data show that the delay time and jitter time decrease with increasing the trigger energy. The delay time and jitter time decreases magnificently with increasing the voltage in main gap. The improvement in the structure and controller of the TVS and ASG is a good way of decreasing the delay time and jitter time. It shows that TVS-2 has better performance in delay time and jitter time than TVS-1. Generally, ARG-2 and ARG-3 have shorter delay time than TVS-1 and TVS-2, as the initial plasma would be generated much more easily and quickly in the air than that in the vacuum case. ASG has a shorter delay time and lower needed minimum breakdown voltage than TVS. The results show that TVS is a better choice than ARG with insignificant erosion.
Keywords :
LC circuits; air gaps; delay circuits; electric breakdown; electrodes; electromagnetic launchers; jitter; pulsed power supplies; pulsed power switches; trigger circuits; vacuum switches; ASG; ASG-1; ASG-2; ASG-3; EML system; LC resonant circuit; TVS-1; TVS-2; air spark gap; breakdown voltage; controller trigger energy; delay characteristics; delay time; electromagnetic launcher system; erosion characteristics; high current capacity; jitter time; plasma generation; power supply control; pulsed power applications; trigger unit; triggered vacuum switch; Delay; Power supplies; Switches;
Conference_Titel :
Pulsed Power Conference (PPC), 2011 IEEE
Conference_Location :
Chicago, IL
Print_ISBN :
978-1-4577-0629-5
DOI :
10.1109/PPC.2011.6191635