Development of photovoltaic (PV) cell/module/array and non-uniform irradiance effect based on two-diode model by using PSPICE simulator

2015 International Conference on Nascent Technologies in the Engineering Field (ICNTE) Pub Date : 2015-02-05 DOI:10.1109/ICNTE.2015.7029922

S. K. Dash, R. Raj, S. Nema, R. Nema

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引用次数: 16

Abstract

Need of alternate electrical energy resource and compatibility with grid connection has revived the interest in PV system. To study the interaction with converters an accurate modeling approach is required which should be able to define precisely the electrical behavior with changes in the surrounding temperature and insolation level. This paper proposes a PSPICE based model utilizing two diode based cell contributing higher accuracy at low irradiance level and allowing better analysis of PV system performance. Also to analyze partial shading effect a model is put forward with the utilization of two diode based PV cell. Temperature and insolation levels are kept as variables to plot the VI and PV characteristics. In order to study the interfacing with MPPT algorithms and converters PV array and module simulation are performed. PSPISE simulator is a platform to deal with non-linear devices such as diodes and transistors availed with a number of parameter to achieve numerical convergence.

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利用PSPICE模拟器开发基于双二极管模型的光伏电池/组件/阵列及非均匀辐照效应

替代电能资源的需求和与电网的兼容性重新引起了人们对光伏系统的兴趣。为了研究与变流器的相互作用，需要一种精确的建模方法，该方法应该能够精确地定义随周围温度和日照水平变化的电行为。本文提出了一种基于PSPICE的模型，利用两个二极管为基础的电池，在低辐照水平下提供更高的精度，并允许更好地分析光伏系统的性能。为了分析部分遮阳效应，提出了利用双二极管光伏电池的遮阳模型。温度和日照水平作为变量来绘制VI和PV特征。为了研究与MPPT算法和变流器的接口，对光伏阵列和模块进行了仿真。PSPISE模拟器是一个处理非线性器件(如二极管和晶体管)的平台，利用多个参数来实现数值收敛。

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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2015 International Conference on Nascent Technologies in the Engineering Field (ICNTE)

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