Reliability Degradation Indicators being Observed on Terrestrial Silicon Solar Cells

18th International Reliability Physics Symposium Pub Date : 1980-04-01 DOI:10.1109/IRPS.1980.362908

J. Prince, J. Lathrop, R. A. Hartman

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引用次数: 1

Abstract

Results of a program to investigate the reliability characteristics of unencapsulated low-cost terrestrial solar cells using accelerated stress testing are presented. A total of seven types of cells were investigated. Results of extended (~ 1 year) bias-temperature stress testing of four cell types were obtained. An additional three cell types, including cells fabricated using the advanced technologies of ribbon-grown silicon and polycrystalline silicon, were subjected to various combinations of bias, temperature cycling stress tests. The spectrum of tests used was based on previous years' work, but differs from that used earlier. An electrical measurement procedure capable of distinguishing small changes in cell electrical parameters was used. Significant degradation was shown by some cell types in some stress tests. Other combinations of cell types and stress tests resulted in no detectable cell degradation. Analysis of the origins of the differences in degradation is continuing. Second quadrant characteristics of some cell types were also investigated in order to establish the electrical behavior of cells which may be exposed to this stress condition in modules deployed in the field.

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陆地硅太阳能电池可靠性退化指标的观察

介绍了一种利用加速应力试验研究无封装低成本地面太阳能电池可靠性特性的程序的结果。共研究了7种类型的细胞。对四种类型的细胞进行了延长(~ 1年)偏温应力测试。另外三种类型的电池，包括使用先进的带状生长硅和多晶硅技术制造的电池，进行了不同组合的偏压、温度循环应力测试。所使用的测试范围是基于前几年的工作，但与之前使用的不同。使用了一种能够区分电池电参数微小变化的电测量程序。在一些压力测试中，某些细胞类型显示出明显的退化。细胞类型和压力测试的其他组合没有导致可检测到的细胞降解。目前正在继续分析退化差异的根源。还研究了某些细胞类型的第二象限特征，以确定在野外部署的模块中可能暴露在这种应力条件下的细胞的电行为。

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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18th International Reliability Physics Symposium

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