Triple-junction amorphous silicon alloy PV manufacturing plant of 5 MW annual capacity

Triple-junction amorphous silicon alloy PV manufacturing plant of 5 MW annual capacity

A spectral-splitting, triple-junction a-Si alloy solar cell processor has been designed, built and optimized. A roll-to-roll process has been used to deposit two layers of back reflector, a triple-cell structure with nine layers of a-Si and a-SiGe alloys and a single layer of antireflection coating...

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Bibliographische Detailangaben
Hauptverfasser: Guha, S., Yang, J., Banerjee, A., Hoffman, K., Sugiyama, S., Call, J., Jones, S.J., Deng, X., Doehler, J., Izu, M., Ovshinsky, H.C.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
ALUMINIUM
Amorphous silicon
AMORPHOUS STATE
ANTIREFLECTION COATINGS
Coatings
Design optimization
GERMANIUM SILICIDES
Iron alloys
MANUFACTURING
MATERIALS HANDLING EQUIPMENT
Photovoltaic cells
Process design
Silicon alloys
SILICON SOLAR CELLS
SOLAR ENERGY
Steel
Zinc oxide
ZINC OXIDES
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Beschreibung
Zusammenfassung:A spectral-splitting, triple-junction a-Si alloy solar cell processor has been designed, built and optimized. A roll-to-roll process has been used to deposit two layers of back reflector, a triple-cell structure with nine layers of a-Si and a-SiGe alloys and a single layer of antireflection coating consecutively on a half-a-mile roll of stainless steel. The coated web is next slabbed and processed to make a variety of products. The design of the machine and processes used incorporate several key features developed for improving cell efficiency. In order to reduce manufacturing cost, higher deposition rates and thinner cells than are used in R&D have been used. The back reflector also consists of Al/ZnO rather than Ag/ZnO. Large-scale production has begun, and products are being shipped for a wide range of applications.
ISSN:0160-8371
DOI:10.1109/PVSC.1997.654162