相移全桥软开关技术在悬式斩波器中的应用

Pengbo Zhu, Xin Liu, Ziqiang Yu, Lin Zhao, Xiaolong Li
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引用次数: 0

摘要

悬浮斩波器是一种控制磁悬浮列车悬浮状态的大功率电气设备。它的性能直接决定了磁悬浮列车的稳定性和安全性。然而,传统的悬挂式斩波器存在IGBT和负载的高电压尖峰问题,对高速磁悬浮列车的安全运行构成威胁。为了解决这一问题,本文设计了一种相移全桥悬架斩波器,该斩波器只增加了一个辅助电路和四个并联电容。采用相移控制信号实现软开关,降低了电压尖峰。与其他电压尖峰抑制方法相比,该方法具有抑制电压尖峰效果好、电路结构简单、元器件使用少、对元器件参数不敏感等优点。利用ANSYS simplover对所设计电路的性能进行了仿真,并通过实验测试平台进行了验证。仿真和实验结果表明,相移式全桥悬架斩波器能显著降低负载和IGBT的电压尖峰。
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Application of phase-shifted full-bridge soft-switch technology in suspension chopper
Suspension chopper is a high-power electrical equipment which controls the suspension state of maglev train. Its performance directly determines the stability and safety of maglev train. However, the traditional suspension chopper has the problem of high voltage spikes of IGBT and load, which poses a threat to the safe operation of high-speed maglev train. In order to solve this problem, this paper designs a phase-shifted full-bridge suspension chopper, which only adds an auxiliary circuit and four parallel capacitors. The soft-switch is realized by using the phase-shifted control signals, so as to reduce the voltage spikes. Compared with other voltage spike suppression methods, the method has the advantages of good suppression of voltage spikes, simple circuit structure, less use of components, and insensitive to component parameters. The performance of the designed circuit is simulated by ANSYS Simplorer, and verified by experimental test platform. The simulation and experimental results show that the phase-shifted full-bridge suspension chopper can greatly reduce voltage spikes of the load and IGBT.
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