Experimental Demonstration of Optically Determined Solar Cell Current Transport Efficiency Map

Amaury DelamarreC2N, Laurent LombezIRDEP, LPCNO, Kentaroh WatanabeRCAST, Masakazu SugiyamaIRDEP, Yoshiaki NakanoIRDEP, IPVF, Jean-Francois GuillemolesIRDEP, IPVF
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Abstract

A recently suggested reciprocity relation states that the current transport efficiency from the junction to the cell terminal can be determined by differentiating luminescence images with respect to the terminal voltage. The validity of this relation is shown experimentally in this paper, by comparison with simultaneously measured electrical currents and simulations. Moreover, we verify that the method is applicable under various light concentrations and applied voltages, which allows us to investigate the cell in relevant conditions. Results evidence several kind of series resistances affecting the current transport efficiencies. We show that the relative contribution of those different resistances to the loss in current collection is a function of the illumination intensity.
光学测定太阳能电池电流传输效率图的实验演示
最近提出的一种互惠关系表明,可以通过发光图像与终端电压之间的差异来确定从结点到细胞终端的电流传输效率。本文通过与同时测量的电流和模拟进行比较,在实验中证明了这一关系的有效性。此外,我们还证明了该方法适用于各种光浓度和应用电压,这使我们能够在相关条件下研究电池。研究结果证明了影响电流传输效率的几种串联电阻。我们表明,这些不同电阻对电流收集损失的相对贡献是照明强度的函数。
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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