Design and optimization of the PV-virtual-bus differential power processing photovoltaic systems

Guanying Chu, H. Wen, Zhaoyang Ye, Xingshuo Li
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引用次数: 8

Abstract

Differential power processing (DPP) is a promising architecture to solve an issue caused by mismatch among PV modules. PV to non-isolated port bus (or PV to the virtual bus) is one of the topologies studied in DPP architecture that allows each DPP converters can achieve maximum power point tracking (MPPT) independently. The string current value does not have an effect on MPPT but relates to the power processed by DPP converter. Keep that each PV is operating at the maximum power point (MPP) while allowing the DPP converter handle the minimum amount of power is the optimal solution. In this paper, the relation between string current and the power processed by DPP converter will be discussed. Further, algorithm has been designed for finding the string current value make DPP converter process the minimum power, and the simulation results for three PV panels are shown.
pv -虚拟总线差分功率处理光伏系统的设计与优化
差分功率处理(DPP)是解决光伏组件间不匹配问题的一种很有前途的架构。PV到非隔离端口总线(或PV到虚拟总线)是DPP体系结构中研究的拓扑之一,它允许每个DPP转换器独立实现最大功率点跟踪(MPPT)。串电流值对MPPT没有影响,但与DPP变换器处理的功率有关。保持每个PV在最大功率点(MPP)运行,同时允许DPP转换器处理最少量的功率是最佳解决方案。本文讨论了串电流与DPP变换器处理的功率之间的关系。在此基础上,设计了使DPP变换器处理功率最小的串电流值算法,并给出了三块光伏板的仿真结果。
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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