功率因数校正变换器稳定性分析的新公式

VIII IEEE International Power Electronics Congress, 2002. Technical Proceedings. CIEP 2002. Pub Date : 2002-10-20 DOI:10.1109/CIEP.2002.1216633

M. Orabi, T. Ninomiya, C. Jin

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引用次数: 16

摘要

新的法规和未来的标准强调功率因数校正(PFC)是开关电源的基本要求。PFC电路的稳定性是最重要的问题之一。在先前的线性PFC模型预测的稳定区域中发现新的不稳定现象，使我们对这些线性模型更加怀疑，并且揭示了对非线性模型缺乏考虑。这迫使我们调查这些问题并开发新的方法。本文建立了模拟升压PFC变换器实际工作的精确非线性模型。该非线性模型检测了这种不稳定现象。然后建立了一个简化的、精确的非线性模型，并进行了实验验证。该模型用于PFC变换器的稳定性设计和分析。引入不稳定映射来确定稳定和不稳定运行范围的边界。

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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New formulation for stability analysis of power factor correction converters

New regulations and future standards highlight power factor correction (PFC) as a basic requirement for switching power supplies. One of the most essential problems is the stability characteristic of a PFC circuit. Detection of a new instability phenomenon in the stable region predicted by the prior linear PFC models makes us more suspicious to these linear models, and reveals the lack of considerations on the nonlinear models. This forces us to investigate these problems and to develop new approaches. This paper has developed an exact nonlinear model performing the real operation of a boost PFC converter. This nonlinear model detects this instability phenomenon. Then a simplified and accurate nonlinear model is developed and verified experimentally. This model is needed for the design and analysis of the stability for PFC converters. An instability map is introduced to determine the boundary between stable and unstable operation ranges.

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来源期刊

VIII IEEE International Power Electronics Congress, 2002. Technical Proceedings. CIEP 2002.

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