薄膜模块测试中PID量化中亚稳态的校正

P. Hacke, S. Spataru, S. Johnston
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引用次数: 2

摘要

在薄膜模块加速应力测试分析中提出了一个根本性的变化,即从我们作为应用应力因子的函数获得的功率测量中去除由于亚稳态和其他可能由于热历史而发生的影响而引起的功率变化。在这项工作中,在应用系统电压的自变量应力之前对模块进行初始热处理,以便任何影响模块功率的温度相关过程(例如扩散)在很大程度上事先被激活。其次,标准化到初始状态的参考模块的功率-经历相同的热和光暴露历史,但没有施加应力因素,如湿度或电压偏置-从应力模块的功率中减去。为了更好地理解和在标准化测试中的适当应用,针对可能导致模块中混淆功率变化的并行发生但不相关的物理机制,演示和讨论了用于电位诱发退化测试的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Correction for Metastability in the Quantification of PID in Thin-Film Module Testing
A fundamental change in the analysis for the accelerated stress testing of thin-film modules is proposed, whereby power changes due to metastability and other effects that may occur due to the thermal history are removed from the power measurement that we obtain as a function of the applied stress factor. In this work, initial thermal treatment of the module is performed before application of the independent variable stress of system voltage so that any temperature-dependent processes (e.g., diffusion) that affect the module power are largely activated beforehand. Secondly, the power of reference modules normalized to an initial state-undergoing the same thermal and light exposure history but without the applied stress factor such as humidity or voltage bias-is subtracted from that of the stressed modules. For better understanding and appropriate application in standardized tests, the method is demonstrated and discussed for potential-induced degradation testing in view of the parallel-occurring but unrelated physical mechanisms that can lead to confounding power changes in the module.
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