Performance Evaluation of PV Integrated DC-DC Converter with Load Demand, Irradiance, and Temperature Variations

2020 5th IEEE International Conference on Recent Advances and Innovations in Engineering (ICRAIE) Pub Date : 2020-12-01 DOI:10.1109/ICRAIE51050.2020.9358283

Harshit Kargeti, A. Sharma, Brijesh Singh

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Abstract

Mostly, photo voltaic (PV) panels are operated with integration of dc-dc power converter, whose duty ratio is controlled to track the instantaneous maximum power point of the PV source. With an uncertain variation of the shading on the PV modules/strings during the time of peak load demand, there is a need to study the variations of the duty ratio of the DC-DC converter connected between the source and the load, to maintain the desired terminal voltage for a grid-connected PV system. The present study proposes an approach for the determination of DC-DC converter duty-ratio with variation in the load demand, irradiance and weather temperature. The studied approach has been implemented for a PV system with standard PV module models. The duty-ratio of the DC-DC converter for maximum PowerPoint has been obtained without shading, uniform shading, and non-uniform shading cases. Simultaneous MPP duty-ratio values and three-dimensional plots for variation in the load demand and the irradiance have been presented. The results obtained are very useful for the proper design of the DC-DC converter.

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考虑负载需求、辐照度和温度变化的PV集成DC-DC变换器性能评估

通常情况下，光伏板是与dc-dc电源转换器集成运行的，控制其占空比以跟踪光伏电源的瞬时最大功率点。由于光伏组件/串上的遮阳在峰值负荷需求期间的变化不确定，因此有必要研究连接在电源和负载之间的DC-DC变换器的占空比变化，以保持并网光伏系统所需的终端电压。本研究提出了一种随负载需求、辐照度和天气温度变化的DC-DC变换器占空比的确定方法。所研究的方法已在具有标准光伏组件模型的光伏系统中实现。得到了无遮光、均匀遮光和非均匀遮光情况下最大PowerPoint的DC-DC变换器的占空比。同时给出了MPP占空比值和负荷需求和辐照度变化的三维图。所得结果对DC-DC变换器的合理设计具有重要的指导意义。

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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2020 5th IEEE International Conference on Recent Advances and Innovations in Engineering (ICRAIE)

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