Path to a drop-in replacement for current technologies with the 33%, large area, IMM cell

D. Chumney, D. Aiken, B. Cho, A. Cornfeld, J. Diaz, V. Ley, J. Mittman, F. Newman, P. Sharps, M. Stan, T. Varghese
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引用次数: 5

Abstract

The triple-junction inverted-metamorphic (IMM-3) air-mass-zero (AM0) solar cell is a high-efficiency photovoltaic device with nearly optimized band-gaps for the solar spectrum. We discuss the path forward for a drop-in replacement of the conventional, 3J lattice-matched germanium based solar cell with an IMM-3 space solar cell. The IMM space solar cell can support several form factors, from flexible to rigid carriers, but a configuration similar to standard space solar cells could be quickly adopted into current panel configurations. The goal of the IMM development team has been to provide a stable processing platform that is also compatible with current solar panel configurations. The superstrate configuration has been the platform used for much of the IMM development to date. We discuss this form factor, as well as other alternatives to achieve a robust cell replacement form factor capable of successfully completing the AIAA-S111 space qualification.
用33%的大面积IMM电池替代现有技术
三结反变质(IMM-3)零空气质量(AM0)太阳能电池是一种具有近乎优化的太阳光谱带隙的高效光伏器件。我们讨论了用IMM-3空间太阳能电池替代传统的3J晶格匹配锗基太阳能电池的前进道路。IMM空间太阳能电池可以支持多种形式因素,从柔性载体到刚性载体,但类似于标准空间太阳能电池的配置可以迅速应用于当前的面板配置。IMM开发团队的目标是提供一个稳定的处理平台,该平台也与当前的太阳能电池板配置兼容。迄今为止,上层配置一直是大多数IMM开发使用的平台。我们讨论了这种形式因素,以及其他替代方案,以实现能够成功完成AIAA-S111空间资格的强大单元替换形式因素。
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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