Comparative study of INPIStron and spark gap
Abstract
An inverse pinch plasma switch, INPIStron, was studied in comparison to a conventional spark gap. The INPIStron is under development for high power switching applications. The INPIStron has an inverse pinch dynamics, opposed to Z-pinch dynamics in the spark gap. The electrical, plasma dynamics and radiative properties of the closing plasmas have been studied. Recently the high-voltage pulse transfer capabilities or both the INPIStron and the spark gap were also compared. The INPIStron with a low impedance Z = 9 ohms transfers 87 percent of an input pulse with a halfwidth of 2 mu s. For the same input pulse the spark gap of Z = 100 ohms transfers 68 percent. Fast framing and streak photography, taken with an TRW image converter camera, was used to observe the discharge uniformity and closing plasma speed in both switches. In order to assess the effects of closing plasmas on erosion of electrode material, emission spectra of two switches were studied with a spectrometer-optical multi channel analyzer (OMA) system. The typical emission spectra of the closing plasmas in the INPIStron and the spark gap showed that there were comparatively weak carbon line emission in 658.7 nm and copper (electrode material) line emissions in the INPIStron, indicating low erosion of materials in the INPIStron.
- Publication:
-
In its Research on Plasma-Puff Initiation of High Coulomb Transfer Switches 4 p (SEE N94-21289 05-75
- Pub Date:
- 1993
- Bibcode:
- 1993rppi.reptR....H
- Keywords:
-
- Electric Switches;
- Emission Spectra;
- Pinch Effect;
- Plasma Dynamics;
- Plasma Pinch;
- Spark Gaps;
- Spectrum Analysis;
- Switching;
- Electrodes;
- Erosion;
- High Voltages;
- Image Converters;
- Plasma Focus;
- Streak Photography;
- Zeta Pinch;
- Plasma Physics