联锁延迟时间最小化及其对高压半桥DC/DC变换器的影响

2009 Compatibility and Power Electronics Pub Date : 2009-05-20 DOI:10.1109/CPE.2009.5156074

T. Jalakas, D. Vinnikov, T. Lehtla, V. Bolgov

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引用次数: 2

摘要

在DC/DC功率变换器中，正如在许多其他具有逆变电路的应用中一样，在逆变器的相反臂中，IGBT开断之间的联锁延迟时间用于避免直流链路中的短路。有几本手册建议应该利用半周期的20%。然而，在某些应用中，例如具有扩展输入电压变化的电源，必须使用更小的联锁延迟时间来确保逆变器的正确运行。本文以现有的6.5 kV igbt实验装置为例，分析了联锁延时时间最小化的可能性。此外，还评估了联锁延迟时间最小化对隔离DC/DC变换器元件、可操作性和效率可能产生的影响。

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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Interlock delay time minimization and its impact on the high-voltage half-bridge DC/DC converter

In DC/DC power converters, as in many other applications with inverter circuits, the interlock delay time between IGBT switching on and off in the opposite inverter arms is used to avoid a short circuit in a DC link. It is suggested by several handbooks that 20% of the half period should be used. However, in some applications, e.g. power supplies with extended input voltage variations, much smaller interlock delay time must be used to ensure correct operation of the inverter. In this paper the interlock delay time minimization possibility is analyzed on an example of an existing experimental device based on 6.5 kV IGBTs. Moreover, the possible impact of interlock delay time minimization on the isolated DC/DC converter components, operability and efficiency is evaluated.

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2009 Compatibility and Power Electronics

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