基于mcg的输电线路充电装置

1999 9th International Crimean Microwave Conference 'Microwave and Telecommunication Technology'. Conference Proceedings (IEEE Cat. No.99EX363) Pub Date : 1900-01-01 DOI:10.1109/CRMICO.1999.815253

E. Chernykh, V. Fortov, K. V. Gorbachev, E. Nesterov, V.M. Mikhailiv, S. D. Plaksina, V. A. Stroganov

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引用次数: 3

摘要

目前，mcg是最强大的能源。现有的高技术水平以及数值模拟方法允许人们创建具有在大范围内变化值的特性的mcg，这为创建适用于不同脉冲功率应用的紧凑型mcg提供了新的前景。通过估算，我们选择了由MCG、电爆开路开关、脉冲变压器和防水成型线组成的电路。MCG绕组与EEOS和变压器初级绕组串联，作为中间电感存储器。在MCG运行结束时，通过变压器初级绕组的电流是最大的。通过该实例，合理选择EEOS特性，建立起爆丝装置，断开变压器一次绕组回路。结果，在次级绕组中产生一个高电动势，这使得人们可以在短时间内(大约200ns)将FL充电到450- 500kv的电压。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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MCG-based device for transmission line charging

At present, MCGs are the most powerful energy sources. Existing level of high technology as well as numerical simulation methods allow one to create MCGs with characteristics varying over a wide range of values, which gives new prospects for creation of compact MCGs for different pulsed power applications. By estimate, we select the circuit consisting of MCG, electroexplosive opening switch, pulse transformer and forming line (FL) with water insulation. MCG winding is connected in series with EEOS and primary winding of the transformer which is used as an intermediate inductive storage. By the end of MCG operation the current through the primary winding of the transformer is maximum. EEOS characteristics are properly chosen to set up wire explosion by this instance and to break the circuit of primary winding of the transformer. In result, in the secondary winding a high emf is induced, which allows one to charge the FL up to the voltage 450-500 kV during a short time period (approximately 200 ns).

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来源期刊

1999 9th International Crimean Microwave Conference 'Microwave and Telecommunication Technology'. Conference Proceedings (IEEE Cat. No.99EX363)

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