Investigation of a two-electrode gas switch with electrodynamical acceleration of spark channel in oscillatory regime of discharge

We have developed a compact gas switch intended for operation in oscillatory (low damping) regime of discharge. It is two-electrode switch with electrodynamic acceleration of a spark channel and a matched series injection trigger generator. A series inductance is employed for isolation of a trigger...

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Bibliographic Details
Published in:Journal of instrumentation 2017-10, Vol.12 (10), p.T10009-T10009
Main Authors: Kharlov, A.V., Kovalchuk, B.M., Kumpyak, E.V., Tsoy, N.V.
Format: Article
Language:English
Subjects:
Acceleration
Amplitudes
Charge transfer
Charging
Circuits
Damping
Discharge
Electric potential
Electrodes
Electrons
Inductance
Internal energy
Investigations
Oscillations
Time lag
Vibration
Voltage
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Summary:We have developed a compact gas switch intended for operation in oscillatory (low damping) regime of discharge. It is two-electrode switch with electrodynamic acceleration of a spark channel and a matched series injection trigger generator. A series inductance is employed for isolation of a trigger pulse from a surrounded circuit. Two operations regimes have been investigated, namely “fast” regime with current amplitude ~ 160 kA, total charge ~ 12 C, period of oscillations 60 μ s, full pulse length ~ 400 μ s and “slow” regime with current amplitude ~ 30 kA, total charge 18 C, period of oscillations 360 μ s, full pulse length ~ 3 ms. The spark gap can be triggered reliably from 16 to 50 kV (at 72 kV self-breakdown voltage). Time delay in firing was less than 35 ns at 1 ns jitter at 30 mm gap and 40 kV charging voltage. The spark gap is designed for 50 kV charging voltage, at a current up to 200 kA, and up to 20 C charge transfer. Arc motion and electrodes erosion in this spark gap have been investigated. The main results are as follows: the arc channel moves on ~ 18 cm in fast regime and ~ 25 cm in slow regime. Results of the switch operation in slow and fast regimes with operational voltage of 40 kV and stored energy 32 kJ promise to get high lifetime. In this paper we present design for the spark gap and trigger generator. Test bed schematics and results of the tests are also described.
ISSN:1748-0221
1748-0221
DOI:10.1088/1748-0221/12/10/T10009