Applying an optimized switching strategy to a high gain boost converter for input current ripple cancellation

2017 8th Power Electronics, Drive Systems & Technologies Conference (PEDSTC) Pub Date : 1900-01-01 DOI:10.1109/PEDSTC.2017.7910319

A. Naderi, K. Abbaszadeh

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引用次数: 1

Abstract

This paper discusses applying various switching strategies such as conventional complementary and proportional methods on a specific converter. This converter was recently presented and it can provide high voltage gain and has current ripple cancelation ability at a preselected duty-cycle. The input current ripple is zero when the converter works at a special duty-cycle. But load disturbance leads to output voltage changes that maybe cause the duty-cycle to deviate from its preselected value. In this situation, the input current ripple cannot be completely canceled. The proposed proportional strategy is an optimized method for minimizing input current ripple at other operating duty-cycles and also it provides a voltage gain lower than conventional complementary strategy. Here, the converter's performance is analyzed under two switching strategies and the effect of various strategies has been investigated on converter parameters including output voltage and input current ripple. These considerations are verified by implementing a 100-W prototype of the proposed converter in laboratory.

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将一种优化的开关策略应用于高增益升压变换器以消除输入电流纹波

本文讨论了在特定变换器上应用各种开关策略，如传统的互补方法和比例方法。该变换器是最近提出的，它可以提供高电压增益，并具有在预选占空比下的电流纹波抵消能力。当变换器工作在一个特殊的占空比时，输入电流纹波为零。但负载扰动导致输出电压变化，可能导致占空比偏离其预设值。在这种情况下，输入电流纹波不能完全消除。所提出的比例策略是一种在其他工作占空比下最小化输入电流纹波的优化方法，并且它提供了比传统互补策略更低的电压增益。本文分析了两种开关策略下变换器的性能，并研究了不同开关策略对变换器输出电压和输入纹波电流等参数的影响。通过在实验室中实现一个100w的转换器原型，验证了这些考虑。

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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2017 8th Power Electronics, Drive Systems & Technologies Conference (PEDSTC)

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