Control strategy to achieve minimum / zero input current ripple for the interleaved boost converter in Photovoltaic / Fuel Cell Power Conditioning System

Saijun Zhang, Xiaoyan Yu
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引用次数: 11

Abstract

It is desirable to have low input current ripple for Photovoltaic / Fuel Cell Power Conditioning System (PCS). A typical input filter could be bulky and costly in order to decrease the input current ripple of the dc-dc converter to satisfy the requirement of low current ripple. This paper proposes a new control approach of adjusting the active phase number and switching frequency to achieve the low or zero input current ripples in the interleaved boost converter. Therefore the input filter is not needed in steady-state. Comparing with existing common solutions, this solution features a lower cost, more compact, better current ripple performance and higher reliability. Simulation and experimental results show that the input current ripples can be greatly decreased with this strategy. The principle of this control approach is also valid for other common interleaved dc-dc topologies.
光伏/燃料电池电力调节系统中交错升压变换器输入电流纹波最小/零的控制策略
光伏/燃料电池功率调节系统(PCS)具有较低的输入纹波电流是人们所期望的。为了减小dc-dc变换器的输入纹波以满足低电流纹波的要求,典型的输入滤波器体积大、成本高。本文提出了一种新的控制方法,通过调节有源相数和开关频率来实现交错升压变换器的低或零输入电流纹波。因此,在稳态下不需要输入滤波器。与现有的通用方案相比,该方案具有成本更低、结构更紧凑、纹波性能更好、可靠性更高等特点。仿真和实验结果表明,该策略能有效地减小输入电流纹波。这种控制方法的原理也适用于其他常见的交错dc-dc拓扑结构。
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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