1. Runtime and Jitter on a Laser-Triggered Spark-Gap Switch.
- Author
-
Hutsel, Brian T., Benwell, Andrew, Kovaleski, Scott D., Kemp, Mark A., Sullivan, Dustin L., and Gahi, John M.
- Subjects
- *
PULSED power systems , *ELECTRIC switchgear , *ELECTRIC power systems , *PULSE generators , *ND-YAG lasers , *ELECTRODES , *ELECTRICAL engineering - Abstract
The University of Missouri has completed a new facility, named Tiger, for pulsed-power experimentation. Tiger consists of a 2.8-MV 450-kJ Marx bank that charges up to four 7-nF intermediate storage capacitors (I-stores) in parallel. When charged, the storage capacitors are switched into a resistive load through an SF6-filled laser-triggered gas switch. This switch has been designed to study the factors affecting runtime and jitter of spark-gap switches. All experiments presented in this paper were performed with a single I-store. The test switch was operated from about 500 kV up to 1.25 MV, at switch pressures from 10 to 50 psig. A 30-mJ 266-nm Nd:YAG laser was focused between the switch electrodes to initiate breakdown in the switch. The University of Missouri has examined laser energy, percentage of self-break, and focal length to determine their relation to runtime and jitter. A short discussion of the Tiger facility is presented with experimental results of jitter and runtime tests. The end goal of this paper is to understand the factors contributing to increased jitter and runtime and, thereby, provide paths to improved switch performance. [ABSTRACT FROM AUTHOR]
- Published
- 2008
- Full Text
- View/download PDF