AM0 Irradiance Conditions for Electrical Performance Measurements of Triple Junction Cells at Extreme Low and High Temperatures

2019 European Space Power Conference (ESPC) Pub Date : 2019-09-01 DOI:10.1109/ESPC.2019.8932014

G. Jüngst, A. Gras, C. Baur

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Abstract

For accurate electric performance measurements of multi-junction solar cells at AM0 illumination conditions under simulated light, the most important parameter to be controlled is the effective irradiance of their individual sub-cells. The AM0 equivalent irradiance conditions once established on a solar simulator at standard cell temperature, i.e. 25°C, might not be fulfilled at certain temperatures when performing electrical measurements on triple junction (3J) GaInP2/ InGaAs/Ge space cells in a wide cell temperature range from −175°C to +140°C, and therefore might entail erroneous electrical cell parameter results. In a study on different solar simulators at INTA-Spasolab the effective irradiance under such AM0 illumination conditions are determined for 3J solar cells at different temperatures. The solar simulator spectra are analyzed by determining those spectral zones affecting the most to required AM0 illumination conditions at low and high temperatures. This analysis demonstrates that the influences of the respective solar simulator spectrum are more associated with specific wavelength zones rather than the solar simulator classification in fixed wavelength bins.

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极低温和高温下三结电池电性能测量的AM0辐照度条件

为了精确测量模拟光下AM0照度条件下多结太阳能电池的电性能，需要控制的最重要参数是其各个子电池的有效辐照度。在标准电池温度(即25°C)下在太阳模拟器上建立的AM0等效辐照度条件，在−175°C至+140°C的宽电池温度范围内对三结(3J) GaInP2/ InGaAs/Ge空间电池进行电测量时，可能无法在特定温度下满足，因此可能导致错误的电池参数结果。在INTA-Spasolab的不同太阳模拟器上，研究了不同温度下3J太阳能电池在AM0照明条件下的有效辐照度。对太阳模拟器的光谱进行分析，确定在低温和高温条件下对所需的AM0光照条件影响最大的光谱区。这一分析表明，各自太阳模拟器光谱的影响更多地与特定的波长区有关，而不是与太阳模拟器在固定波长箱中的分类有关。

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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2019 European Space Power Conference (ESPC)

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