Systems Analysis, Modeling, Simulation, and Signal Processing Aspects of Coordinated Experimental and Modeling Investigations of High-Speed Gas Discharge Switch Breakdown Behavior

The authors have been engaged in experimental and modeling investigations of the electrical turn-on behavior of high-pressure gas discharge switching. Emphasis has been on characterizing the first few nanoseconds of switch turn-on for a range of operational conditions (i.e., gas type, gas pressure,...

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Hauptverfasser:	Pate, Ron, Riley, Doug, Patterson, Paull, Rinehart, Larry, Buttram, Malcolm, MacGregor, Scott, Dick, Andrew, Kunhardt, Erich, Hussey, Tom
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Schlagworte:	AUGMENTATION BREAKDOWN(ELECTRONIC THRESHOLD) COMPUTERIZED SIMULATION DRIVES(ELECTRONICS) Electrical and Electronic Equipment ELECTRICAL PROPERTIES EXPERIMENTAL DATA GAS DISCHARGES HIGH-SPEED GAS DISCHARGE IMPEDANCE Plasma Physics and Magnetohydrodynamics SIGNAL PROCESSING SYSTEMS ANALYSIS TIME DOMAIN WAVEFORMS
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creator	Pate, Ron Riley, Doug Patterson, Paull Rinehart, Larry Buttram, Malcolm MacGregor, Scott Dick, Andrew Kunhardt, Erich Hussey, Tom
description	The authors have been engaged in experimental and modeling investigations of the electrical turn-on behavior of high-pressure gas discharge switching. Emphasis has been on characterizing the first few nanoseconds of switch turn-on for a range of operational conditions (i.e., gas type, gas pressure, gap length, drive circuit impedance, etc.). This paper describes the modeling, signal processing, and systems analysis aspects of the investigations, which were driven by interest in pursuing the extent to which limited experimental data could be usefully augmented with available computer modeling tools and techniques. A high-fidelity 3-D model of the experimental apparatus was developed and simulations performed using a full 3-D time-domain Maxwell solver. This provided detailed electrical characterization of the experimental system that allowed for the development of transfer functions enabling the estimation of time-varying discharge gap voltage and current waveforms based on experimental D-dot probe measurements taken some distance away from the discharge gap. The steps of this process are outlined, example results shown, conclusions presented, and directions for future work suggested. See also ADM002371. 2013 IEEE Pulsed Power Conference, Digest of Technical Papers 1976-2013, and Abstracts of the 2013 IEEE International Conference on Plasma Science. IEEE International Pulsed Power Conference (19th). Held in San Francisco, CA on 16-21 June 2013. U.S. Government or Federal Purpose Rights License.
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Emphasis has been on characterizing the first few nanoseconds of switch turn-on for a range of operational conditions (i.e., gas type, gas pressure, gap length, drive circuit impedance, etc.). This paper describes the modeling, signal processing, and systems analysis aspects of the investigations, which were driven by interest in pursuing the extent to which limited experimental data could be usefully augmented with available computer modeling tools and techniques. A high-fidelity 3-D model of the experimental apparatus was developed and simulations performed using a full 3-D time-domain Maxwell solver. This provided detailed electrical characterization of the experimental system that allowed for the development of transfer functions enabling the estimation of time-varying discharge gap voltage and current waveforms based on experimental D-dot probe measurements taken some distance away from the discharge gap. The steps of this process are outlined, example results shown, conclusions presented, and directions for future work suggested. See also ADM002371. 2013 IEEE Pulsed Power Conference, Digest of Technical Papers 1976-2013, and Abstracts of the 2013 IEEE International Conference on Plasma Science. IEEE International Pulsed Power Conference (19th). Held in San Francisco, CA on 16-21 June 2013. 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The steps of this process are outlined, example results shown, conclusions presented, and directions for future work suggested. See also ADM002371. 2013 IEEE Pulsed Power Conference, Digest of Technical Papers 1976-2013, and Abstracts of the 2013 IEEE International Conference on Plasma Science. IEEE International Pulsed Power Conference (19th). Held in San Francisco, CA on 16-21 June 2013. 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Emphasis has been on characterizing the first few nanoseconds of switch turn-on for a range of operational conditions (i.e., gas type, gas pressure, gap length, drive circuit impedance, etc.). This paper describes the modeling, signal processing, and systems analysis aspects of the investigations, which were driven by interest in pursuing the extent to which limited experimental data could be usefully augmented with available computer modeling tools and techniques. A high-fidelity 3-D model of the experimental apparatus was developed and simulations performed using a full 3-D time-domain Maxwell solver. This provided detailed electrical characterization of the experimental system that allowed for the development of transfer functions enabling the estimation of time-varying discharge gap voltage and current waveforms based on experimental D-dot probe measurements taken some distance away from the discharge gap. The steps of this process are outlined, example results shown, conclusions presented, and directions for future work suggested. See also ADM002371. 2013 IEEE Pulsed Power Conference, Digest of Technical Papers 1976-2013, and Abstracts of the 2013 IEEE International Conference on Plasma Science. IEEE International Pulsed Power Conference (19th). Held in San Francisco, CA on 16-21 June 2013. U.S. Government or Federal Purpose Rights License.</abstract><oa>free_for_read</oa></addata></record>
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subjects	AUGMENTATION BREAKDOWN(ELECTRONIC THRESHOLD) COMPUTERIZED SIMULATION DRIVES(ELECTRONICS) Electrical and Electronic Equipment ELECTRICAL PROPERTIES EXPERIMENTAL DATA GAS DISCHARGES HIGH-SPEED GAS DISCHARGE IMPEDANCE Plasma Physics and Magnetohydrodynamics SIGNAL PROCESSING SYSTEMS ANALYSIS TIME DOMAIN WAVEFORMS
title	Systems Analysis, Modeling, Simulation, and Signal Processing Aspects of Coordinated Experimental and Modeling Investigations of High-Speed Gas Discharge Switch Breakdown Behavior
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