Optimization of large area solar cells for low cost space applicationThe development of large-area solar cell manufacturing techniques for production of up to 10 kW/month of cells for use on the Shuttle Power Extension Package is detailed. Design goals for the cells were 14% efficiency at 135.3 mW/sq cm AM0 illumination for a 10 ohm-cm BSF/reflector cell, or 12.8% for a 2 ohm-cm BSR cell. Use of terrestrial cell technology to produce CVD SiO2 dielectric insulators for 3-in. ingot cells yielded satisfactory contact integrity. Fused silica coverings with thicknesses of 0.004 in. have allowed exploration of conventional and wraparound cell configurations due to inherent flexibilities of the frosted covers. One production run can now handle 108 3-in. wafers for the wraparound form or 216 in one-sided contact evaporations, with both processes taking 70 mins. Current contact grid designs for space use production permits average efficiencies of 12.8%.
Document ID
19820061429
Acquisition Source
Legacy CDMS
Document Type
Conference Proceedings
Authors
Matthei, K. W. (Applied Solar Energy Corp. City of Industry, CA, United States)
Zemmrich, D. K. (Applied Solar Energy Corp. City of Industry, CA, United States)
Webb, M. (Applied Solar Energy Corp. City of Industry, CA, United States)