Manufacturing of triple-junction 4 ft/sup 2/ a-Si alloy PV modules

Spectrum splitting, triple-junction a-Si alloy 4 ft/sup 2/ PV modules have been assembled utilizing solar cells produced in a 2 Megawatt continuous roll-to-roll manufacturing line. This manufacturing line produces solar cells on a 5 mm thick, 14 inch wide and 2500 foot long stainless steel roll at a...

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Hauptverfasser:	Izu, M., Deng, X., Krisko, A., Whelan, K., Young, R., Ovshinsky, H.C., Narasimhan, K.L., Ovshinsky, S.R.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Costs Iron alloys Manufacturing processes Photonic band gap Photovoltaic cells Photovoltaic systems Production Solar power generation Steel Substrates
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creator	Izu, M. Deng, X. Krisko, A. Whelan, K. Young, R. Ovshinsky, H.C. Narasimhan, K.L. Ovshinsky, S.R.
description	Spectrum splitting, triple-junction a-Si alloy 4 ft/sup 2/ PV modules have been assembled utilizing solar cells produced in a 2 Megawatt continuous roll-to-roll manufacturing line. This manufacturing line produces solar cells on a 5 mm thick, 14 inch wide and 2500 foot long stainless steel roll at a speed of 1 ft/min. The layered structure of the solar cells is: SS/Ag/ZnO/n/sub 1/i/sub 1/p/sub 1/n/sub 2/i/sub 2/p/sub 2n/sub 3/i/sub 3/p/sub 3TCO, where i/sub 1/ is band-gap graded a-SiGe alloy, i/sub 2/ and i/sub 3/ are a-Si and all of p/sub 1/, p/sub 2/ and p/sub 3/ are /spl mu/c-Si p/sup +/. These PV modules provide 9.5% initial and 8.0% stable conversion efficiencies, the highest reported values for a-Si alloy production modules (/spl ges/4 ft/sup 2/). Major accomplishments which produced the significant efficiency included: (1) the incorporation, for the first time, of a band-gap profiled a-SiGe narrow band-gap solar cell into a continuous roll-to-roll process; (2) the incorporation, for the first time, of a high performance texturized Ag/ZnO back-reflector system into a continuous roll-to-roll process with production subcell yields greater than 99%.< >
doi_str_mv	10.1109/PVSC.1993.347098
format	Conference Proceeding
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No.93CH3283-9)</btitle><stitle>PVSC</stitle><date>1993</date><risdate>1993</risdate><spage>919</spage><epage>925</epage><pages>919-925</pages><isbn>0780312201</isbn><isbn>9780780312203</isbn><abstract>Spectrum splitting, triple-junction a-Si alloy 4 ft/sup 2/ PV modules have been assembled utilizing solar cells produced in a 2 Megawatt continuous roll-to-roll manufacturing line. This manufacturing line produces solar cells on a 5 mm thick, 14 inch wide and 2500 foot long stainless steel roll at a speed of 1 ft/min. The layered structure of the solar cells is: SS/Ag/ZnO/n/sub 1/i/sub 1/p/sub 1/n/sub 2/i/sub 2/p/sub 2n/sub 3/i/sub 3/p/sub 3TCO, where i/sub 1/ is band-gap graded a-SiGe alloy, i/sub 2/ and i/sub 3/ are a-Si and all of p/sub 1/, p/sub 2/ and p/sub 3/ are /spl mu/c-Si p/sup +/. These PV modules provide 9.5% initial and 8.0% stable conversion efficiencies, the highest reported values for a-Si alloy production modules (/spl ges/4 ft/sup 2/). Major accomplishments which produced the significant efficiency included: (1) the incorporation, for the first time, of a band-gap profiled a-SiGe narrow band-gap solar cell into a continuous roll-to-roll process; (2) the incorporation, for the first time, of a high performance texturized Ag/ZnO back-reflector system into a continuous roll-to-roll process with production subcell yields greater than 99%.< ></abstract><pub>IEEE</pub><doi>10.1109/PVSC.1993.347098</doi></addata></record>
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language	eng
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Costs Iron alloys Manufacturing processes Photonic band gap Photovoltaic cells Photovoltaic systems Production Solar power generation Steel Substrates
title	Manufacturing of triple-junction 4 ft/sup 2/ a-Si alloy PV modules
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