Voltage-matched, two-terminal, GaAs (AlGaAs)/CuInSe/sub 2/ tandem solar cells

Mechanically stacked tandem solar cells based on GaAs thin-film single-crystal top cells and CuInSe/sub 2/ (CIS) bottom cells were developed to meet the weight and radiation-resistance requirements of advanced spacecraft power systems. Efficiencies over 23% have been demonstrated with these cells in...

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Hauptverfasser:	Kim, N.P., Stewart, J.M., Stanbery, B.J., Mickelsen, R.A., Devaney, W.E., Chen, W.S., Burgess, R.M., McClelland, R.W., Shastry, S., Dingle, J., Hill, D.S., Dingle, B.D., Gale, R.P.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Circuit analysis Computational Intelligence Society Fabrication Gallium arsenide Integrated circuit interconnections Low earth orbit satellites Performance analysis Photovoltaic cells Temperature sensors Voltage
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creator	Kim, N.P. Stewart, J.M. Stanbery, B.J. Mickelsen, R.A. Devaney, W.E. Chen, W.S. Burgess, R.M. McClelland, R.W. Shastry, S. Dingle, J. Hill, D.S. Dingle, B.D. Gale, R.P.
description	Mechanically stacked tandem solar cells based on GaAs thin-film single-crystal top cells and CuInSe/sub 2/ (CIS) bottom cells were developed to meet the weight and radiation-resistance requirements of advanced spacecraft power systems. Efficiencies over 23% have been demonstrated with these cells in a four-terminal configuration. In order to use the device as a direct replacement for conventional single-junction cells with existing array designs. a two-terminal, voltage-matched tandem cell with 8 cm/sup 2/ area has been designed and fabricated. Tandem cells with efficiencies over 20% have been demonstrated with this design. AlGaAs high-bandgap cells have been demonstrated with efficiency over 17% for future AlGaAs/ClS tandem cells capable of higher end-of-life efficiency. The performance of the two-terminal tandem cells and the AlGaAs high-bandgap cell are described.< >
doi_str_mv	10.1109/PVSC.1991.169184
format	Conference Proceeding
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Efficiencies over 23% have been demonstrated with these cells in a four-terminal configuration. In order to use the device as a direct replacement for conventional single-junction cells with existing array designs. a two-terminal, voltage-matched tandem cell with 8 cm/sup 2/ area has been designed and fabricated. Tandem cells with efficiencies over 20% have been demonstrated with this design. AlGaAs high-bandgap cells have been demonstrated with efficiency over 17% for future AlGaAs/ClS tandem cells capable of higher end-of-life efficiency. 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Efficiencies over 23% have been demonstrated with these cells in a four-terminal configuration. In order to use the device as a direct replacement for conventional single-junction cells with existing array designs. a two-terminal, voltage-matched tandem cell with 8 cm/sup 2/ area has been designed and fabricated. Tandem cells with efficiencies over 20% have been demonstrated with this design. AlGaAs high-bandgap cells have been demonstrated with efficiency over 17% for future AlGaAs/ClS tandem cells capable of higher end-of-life efficiency. 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Efficiencies over 23% have been demonstrated with these cells in a four-terminal configuration. In order to use the device as a direct replacement for conventional single-junction cells with existing array designs. a two-terminal, voltage-matched tandem cell with 8 cm/sup 2/ area has been designed and fabricated. Tandem cells with efficiencies over 20% have been demonstrated with this design. AlGaAs high-bandgap cells have been demonstrated with efficiency over 17% for future AlGaAs/ClS tandem cells capable of higher end-of-life efficiency. The performance of the two-terminal tandem cells and the AlGaAs high-bandgap cell are described.< ></abstract><pub>IEEE</pub><doi>10.1109/PVSC.1991.169184</doi></addata></record>
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identifier	ISBN: 0879426365
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language	eng
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Circuit analysis Computational Intelligence Society Fabrication Gallium arsenide Integrated circuit interconnections Low earth orbit satellites Performance analysis Photovoltaic cells Temperature sensors Voltage
title	Voltage-matched, two-terminal, GaAs (AlGaAs)/CuInSe/sub 2/ tandem solar cells
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