基于脉冲变压器的触发真空开关脉冲触发源设计与分析

IF 1.3 4区物理与天体物理 Q3 PHYSICS, FLUIDS & PLASMAS

IEEE Transactions on Plasma Science Pub Date : 2025-01-24 DOI:10.1109/TPS.2024.3525131

Liang Bu;Xubin Li;Minfu Liao;Ming Zhang;Gang Lu;Longfei Yu;Xiongying Duan

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引用次数: 0

摘要

场击穿触发真空开关对触发脉冲的要求较高。基于脉冲变压器和固态开关的触发源具有良好的可靠性和低抖动特性，可用于触发FTVS。对触发源的工作过程进行详细的分析，有利于更好地设计触发源。本文介绍了一种基于闭合环形磁芯和IGBT的脉冲变压器的脉冲触发源的分析和设计过程。分析了PTS的主要工作过程，评估了PTS的杂散电阻、漏电感和分布电容对输出脉冲波形的影响。通过优化脉冲变压器的结构和选择合适的磁芯材料，改善了脉冲变压器的响应特性。实验结果证明了本文所提出的分析方法的有效性。所设计的PTS能够产生峰值超过18kv、脉宽$0\sim 5~\mu $ s、上升时间< 560ns的高压脉冲，能够可靠触发FTVS。

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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Design and Analysis of Pulse Trigger Source for Triggered Vacuum Switch Based on Pulse Transformer

Field breakdown triggered vacuum switch (FTVS) has higher requirements for triggering pulse. The trigger source based on pulse transformer and solid-state switch has good reliability and low jitter characteristics, which can be used to trigger FTVS. A detailed analysis of the working process of the trigger source is beneficial for better design of the trigger source. This article introduces the analysis and the design process of a pulse trigger source (PTS) based on a pulse transformer using a closed annular magnetic core and IGBT. An analytical analysis of the main working process of the PTS is provided, and the effects of the PTS’s stray resistances, leakage inductances, and distributed capacitances on the output pulse waveform are evaluated. By optimizing the structure of the pulse transformer and selecting appropriate magnetic core materials, the response characteristics of the pulse transformer have been improved. The experimental results demonstrate the effectiveness of the proposed analysis presented in this article. The designed PTS can generate high-voltage pulses with peak values exceeding 18 kV, pulsewidth of

$0\sim 5~\mu $

s, and rise time of <560 ns, which can reliably trigger FTVS.

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来源期刊

IEEE Transactions on Plasma Science 物理-物理：流体与等离子体

CiteScore

3.00

自引率

20.00%

发文量

538

审稿时长

3.8 months

期刊介绍： The scope covers all aspects of the theory and application of plasma science. It includes the following areas: magnetohydrodynamics; thermionics and plasma diodes; basic plasma phenomena; gaseous electronics; microwave/plasma interaction; electron, ion, and plasma sources; space plasmas; intense electron and ion beams; laser-plasma interactions; plasma diagnostics; plasma chemistry and processing; solid-state plasmas; plasma heating; plasma for controlled fusion research; high energy density plasmas; industrial/commercial applications of plasma physics; plasma waves and instabilities; and high power microwave and submillimeter wave generation.