Experimental Study of Reversely Switched Dynistor Discharge Based on Gap Breakdown Load

Breakdown characteristics of a gap breakdown load was investigated in this paper, and a reversely switched dynistor （RSD） discharge circuit was designed based on the load. Based on the characteristics of the load, the RSD discharge circuit was improved and optimized. The volume of the magnetic switc...

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Veröffentlicht in:	Plasma science & technology 2011-02, Vol.13 (1), p.121-124
1. Verfasser:	尚超梁琳余岳辉吴拥军李海亮
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Sprache:	eng
Schlagworte:	击穿特性放电电路放电间隙电源电压电路开关
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container_title	Plasma science & technology
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creator	尚超梁琳余岳辉吴拥军李海亮
description	Breakdown characteristics of a gap breakdown load was investigated in this paper, and a reversely switched dynistor （RSD） discharge circuit was designed based on the load. Based on the characteristics of the load, the RSD discharge circuit was improved and optimized. The volume of the magnetic switch was reduced. To protect the thyristor and RSD, a diode was anti- parallely connected with the thyristor, which reduced the time requirement when a power voltage was applied to RSD. Experimental results show the circuit designed in this paper can switch a high voltage and high current smoothly, and allows the power voltage to change in a wider range.
doi_str_mv	10.1088/1009-0630/13/1/24
format	Article
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Based on the characteristics of the load, the RSD discharge circuit was improved and optimized. The volume of the magnetic switch was reduced. To protect the thyristor and RSD, a diode was anti- parallely connected with the thyristor, which reduced the time requirement when a power voltage was applied to RSD. 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subjects	击穿特性放电电路放电间隙电源电压电路开关
title	Experimental Study of Reversely Switched Dynistor Discharge Based on Gap Breakdown Load
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