η-ρ Pareto optimization of bidirectional half-cycle discontinuous-conduction-mode series-resonant DC/DC converter with fixed voltage transfer ratio

2013 Twenty-Eighth Annual IEEE Applied Power Electronics Conference and Exposition (APEC) Pub Date : 2013-03-17 DOI:10.1109/APEC.2013.6520484

J. Huber, G. Ortiz, F. Krismer, N. Widmer, J. Kolar

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引用次数: 36

Abstract

In solid-state-transformer technology, the isolation and power transfer between low voltage and medium voltage side is performed by a high power DC/DC converter. This DC/DC converter provides a defined ratio between input and output voltages, whereby, in order to reduce switching losses, zero-current-switching modulation schemes are often mandatory. The series-resonant-converter operated in half-cycle discontinuous-conduction-mode possesses all the aforementioned features, thus making it highly attractive for solid-state-transformer applications. For this reason, a comprehensive analytical model of the converter's static and dynamic behavior is provided in this paper. In addition, a method to model the switching losses under ZCS conditions, which is based on the behavior of the stored charge in the semiconductors, is presented. This enables an efficiency/power density (η-ρ) Pareto optimization of the aforementioned converter system.

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固定电压传递比双向半周不连续导模串联谐振DC/DC变换器的η-ρ Pareto优化

在固态变压器技术中，低压侧和中压侧之间的隔离和功率传输由大功率DC/DC变换器完成。该DC/DC变换器在输入和输出电压之间提供了一个定义的比率，因此，为了减少开关损耗，零电流开关调制方案通常是强制性的。在半周期不连续传导模式下工作的串联谐振变换器具有上述所有特征，因此对固态变压器应用具有很高的吸引力。为此，本文给出了转炉静态和动态特性的综合分析模型。此外，提出了一种基于半导体中存储电荷的行为来模拟ZCS条件下开关损耗的方法。这使得上述转换器系统的效率/功率密度(η-ρ) Pareto优化成为可能。

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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2013 Twenty-Eighth Annual IEEE Applied Power Electronics Conference and Exposition (APEC)

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