硅单片互连太阳能电池产品的初步结果

Conference Record of the Twenty Fifth IEEE Photovoltaic Specialists Conference - 1996 Pub Date : 1996-05-13 DOI:10.1109/PVSC.1996.564216

K. Shreve, L. C. Dinetta, J. Cotter, J. Bower, T. R. Ruffins, A. Barnett

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引用次数: 7

摘要

这项技术是基于AstroPower的静电键合和硅太阳能电池加工技术。静电键合允许硅片永久附着在热匹配的玻璃上，并加工形成单片互连器件。这些设备可以为空间和地面应用量身定制。单片互连的成本比劳动密集型，传统的串联太阳能电池阵列有利。电压和电流输出可以在不改变制造步骤数量的情况下变化。原型机的效率超过11%。单片方法对空间和地面光伏产品具有许多固有的优势。

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Initial results for the silicon monolithically interconnected solar cell product

This technology is based on AstroPower's electrostatic bonding and silicon solar cell processing techniques. Electrostatic bonding allows silicon wafers to be permanently attached to a thermally matched glass superstrate and processed to form the monolithically interconnected devices. These devices can be tailored for space and terrestrial applications. The costs of the monolithic interconnection compare favorably to labor intensive, conventionally strung solar cell arrays. Voltage and current outputs can be varied without varying the number of fabrication steps. Prototypes have demonstrated efficiencies greater than 11%. The monolithic approach has a number of inherent advantages for space and terrestrial photovoltaic products.

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Conference Record of the Twenty Fifth IEEE Photovoltaic Specialists Conference - 1996

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