光伏组件色带可靠性及退化评估

2011 37th IEEE Photovoltaic Specialists Conference Pub Date : 2011-06-19 DOI:10.1109/PVSC.2011.6186609

Chiu-Hua Huang, Liu-De Chih, Yi-Chia Chen, Ming-Yuan Huang, Zhen-Cheng Wu, Shyuan-Jeng Ho

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引用次数: 1

摘要

模组发黄是最明显的视觉缺陷。它出现在98%的植物模块上，对于63%的面板，它强有力地覆盖了整个背景面板。为了观察这种变黄是否影响组件的输出，测量了表面氧化成分和厚度。这封信报告了友达太阳能如何利用高加速和湿度应力测试(HAST)来确定带状变黄效果，以及预期的表面氧化成分。同时我们确定了表面氧化速率。结果表明，缎带发黄是由于表面氧化的结果，而黄色外观只是一个外观问题。无铅带更容易变黄，因为铅不会生成氧化物，只有锡会。无铅焊料中较高的锡浓度表明它会相对更快、更容易变黄。

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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Assessing the reliability and degradation of ribbon in photovoltaic module

Yellowing of modules represents the most evident visual defect. It appears on 98% of the plant modules and, for 63% of panels, it strongly covers their entire background tedlar. In order to see if this yellowing effects the output of the modules the surface oxidation composition and thickness were measured. This letter reports how AUO solar utilizes Highly Accelerated & Humidity Stress Test (HAST) to determine ribbon yellowing effect, and the expected surface oxidation composition. In the same time we identify the surface oxidation rate. The result indicates that ribbon yellowness is a result of surface oxidation, and the yellow appearance is only a cosmetic issue. Lead-free ribbons are more vulnerable to yellowing because lead does not build oxides, only Tin does. The higher concentration of Tin in lead-free solder suggests it will exhibit yellowing relatively faster and easier.

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2011 37th IEEE Photovoltaic Specialists Conference

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