基于离散小波变换的光伏系统部分遮阳故障诊断

2014 International Conference on Renewable Energy Research and Application (ICRERA) Pub Date : 2014-10-01 DOI:10.1109/ICRERA.2014.7016497

M. Davarifar, A. Rabhi, A. Hajjaji, E. Kamal, Z. Daneshifar

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引用次数: 18

摘要

房主光伏系统希望最大限度地从安装的居民光伏系统(RPS)中获取总能量，特别是在有上网电价(FIT)的情况下。在这方面，太阳能光伏(PV)阵列的故障检测可以加快光伏系统的恢复时间。另一方面，RPS中最常见的故障之一是部分遮阳，故障诊断和解释这类故障是我们提出本文的动机。阴影管柱的I-V曲线包括缺口点和陡坡点，它们与阴影单元的特征有关。实际上，I-V曲线中垂直高度的值代表了遮阳的百分比。同样，缺口点与Voc的水平或电压距离与模块内被二极管旁路的单元串的数量有关(旁路模块的数量)。本文首次采用离散小波变换(dwt)对光伏系统的跟踪I-V曲线进行解释，并在相关诊断工作中定义这些协调点。

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Partial shading fault diagnosis in PV system with discrete wavelet transform (DWT)

The homeowners PV system want to maximize the total energy harvesting from their installed resident PV system (RPS), especially if there is a feed-in tariff (FIT) in play. In this regard, fault detection in solar photovoltaic (PV) arrays allows to expedite PV system recovery time. On the other hand, one of the most common fault in RPS is partial shading and fault diagnosis effort and interpreting this type of fault is motivated us to propose this paper. I-V curve of shaded string included notched and steeped points which are related to signature of shaded cells. In fact, the value of the vertical height in I-V curve represented of percentage of shading. Likewise, the horizontal or voltage distance from Voc of the notched point is related to the number of cells strings within modules those have been bypassed by diodes (Number of bypassed modules). In this work, for first time discrete wavelet transform (dwt) is used to interpret traced I-V curve of PV system and defining these coordinated points in related diagnosis effort.

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2014 International Conference on Renewable Energy Research and Application (ICRERA)

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