下一个前沿的IMM实验:Emcore参与mse -8项目

B. Cho, R. Lutz, J. Pappan, E. Downard, A. Cornfeld, N. Fatemi, M. Stan, P. Sharps, C. Su, S. Billets, S. Gasner, A. Howard
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引用次数: 8

摘要

Emcore与洛克希德-马丁公司(LM)和空军研究实验室(AFRL)合作,将其先进的IMM单元技术应用于MISSE-8,具有多种单元形式和两种不同的配置。第一种是双覆盖玻璃(DCG),其中粘合剂和覆盖玻璃附着在太阳能电池的正面和背面,在第二种配置中,IMM电池安装在刚性,轻质,cte匹配的基板上。预构建测试片从- 100°C到100°C进行了1124次热循环,7个电池/串中有6个没有电降解,单个降解电池的Jsc损失仅为3.5%,Voc或FF没有变化。实验中使用的IMM3J电池的平均AM0效率(太阳常数= 1353 W/m2)平均效率为31.3%(忽略了异常低性能的电池),而4cm2的IMM4J电池的平均效率为33.1%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
IMM experimentation in the next frontier: Emcore'S participation in the MISSE-8 program
In collaborations with both Lockheed-Martin (LM) and the Air Force Research Laboratory (AFRL), Emcore has incorporated its cutting-edge IMM cell technologies on MISSE-8 in a variety of cell form factors and two distinct configurations. The first is a double coverglass (DCG) arrangement, where adhesive and coverglass are attached to both the front and backsides of the solar cell, and in the second configuration the IMM cell was mounted to a rigid, lightweight, CTE-matched substrate. Pre-build test coupons were subjected to 1124 thermal cycles from −100 to 100°C, and showed no electrical degradation in six out of seven cells/strings, with the lone degraded cell exhibiting just a 3.5% loss in Jsc and no change in Voc or FF. The average AM0 efficiency (solar constant = 1353 W/m2) of the IMM3J cells flown in this experiment have an average efficiency of 31.3% (omitting an anomalously low-perfoming cell), and the 4cm2 IMM4J cells 33.1%.
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