Half-bridge power-processing cell utilizing a linear variable inductor and thyristor-dual switches

PESC '88 Record., 19th Annual IEEE Power Electronics Specialists Conference Pub Date : 1988-04-11 DOI:10.1109/PESC.1988.18145

A. Kislovski

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引用次数: 12

Abstract

Bridge-type power-processing cells using linear variable inductors (LVIs) as controlled elements are inherently reactive; during certain portion of the switching cycle they restore energy to the source. The switches turn on a zero current, and can use the thyristor-dual principle to virtually eliminate turn-off losses, an inherent advantage of the LVI topologies being a constant-frequency operation. A half-bridge LVI power-processing cell utilizing thyristor-dual switches is analyzed, its properties are discussed, and experimental results illustrating these properties are reported. It is demonstrated that the implementation is feasible and that it results in extremely low switching losses. The transient-stability problem inherent in topologies with thyristor-duals is discussed, and a simple and highly reliable solution is proposed. Steady-state analysis has been carried out, and the boundary of the fail-safe commutation of the switches is determined. The numerical results obtained can be directly incorporated into straightforward design programs; the design procedure is summarized in a comprehensive flowchart.<>

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利用线性可变电感和晶闸管双开关的半桥功率处理电池

使用线性可变电感器(LVIs)作为控制元件的桥式功率处理电池本质上是无功的;在开关周期的某个部分，它们将能量恢复到源。开关打开零电流，并且可以使用晶闸管双通原理几乎消除关断损耗，这是LVI拓扑的固有优势，是恒频操作。分析了一种利用晶闸管双开关的半桥LVI功率处理电池，讨论了其性能，并报道了说明这些性能的实验结果。实验结果表明，该方法是可行的，且开关损耗极低。讨论了晶闸管双晶闸管拓扑结构固有的暂态稳定性问题，并提出了一种简单、高可靠的解决方案。进行了稳态分析，确定了开关的安全换相边界。所得数值结果可直接纳入简单的设计程序;设计过程以一个全面的流程图进行了总结。

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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PESC '88 Record., 19th Annual IEEE Power Electronics Specialists Conference

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