光伏阵列最大功率点跟踪的间接方法

2014 International Conference on Renewable Energy Research and Application (ICRERA) Pub Date : 2014-10-01 DOI:10.1109/ICRERA.2014.7016552

A. Leedy, K. E. Garcia

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引用次数: 1

摘要

光伏(PV)阵列由于依赖于日照、风力和电池温度而具有不一致的输出电压。这导致输出功率从PV阵列能够提供给负载的最大功率变化。提出了一种间接跟踪光伏阵列最大功率点(MPP)的方法。为了使PV阵列的输出功率最大化，将使用PIC微控制器来跟踪太阳能阵列的MPP，使用曲线拟合方法中的特征方程来预测不同电池温度下的功率与电压(P-V)曲线。该方法用四阶多项式逼近P-V特性曲线。确定了近似P-V特性曲线的系数与电池温度密切相关。P-V曲线对电池温度的强烈依赖性使得给定系统的P-V特性曲线可以写成面板电压和电池温度的函数。利用实验室采集的实验数据对所提出的曲线拟合方法进行了验证。最后给出了该方法的仿真结果。

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An indirect method for maximum power point tracking for photovoltaic arrays

Photovoltaic (PV) arrays have inconsistent output voltages due to a dependence on insolation, wind, and cell temperature. This causes the output power to vary from the maximum power the PV arrays are capable of providing to a load. An indirect method for tracking the maximum power point (MPP) of a PV array is presented. In order to maximize the output power of the PV array, a PIC microcontroller will be used to track the MPP of the solar array using characteristic equations from a curve fitting method that predicts the power versus voltage (P-V) curve for varying cell temperatures. This method approximates the P-V characteristic curve with a fourth-order polynomial. The coefficients of the approximated P-V characteristic curve were determined to be strongly dependent on cell temperature. The strong dependence of the P-V curve on cell temperature allows the P-V characteristic curve of a given system to be written as a function of both panel voltage and cell temperature. The proposed curve fitting method was verified using experimental data collected in the laboratory. Simulation results of the proposed method are also presented.

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

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