Processing Evaluations of an Automated High-Throughput System for Interconnecting Crystalline Silicon Solar Cells

    Research output: Contribution to conferencePaper

    Abstract

    The objective of this work is to reduce the cost and improve the quality of terrestrial photovoltaic (PV) modules by developing automated high-throughput (5 MW/yr) processes for interconnecting crystalline silicon solar cells. A new automated processing system was developed for high-throughput, high-yield solar cell interconnection. The results of extensive processing evaluations with a range ofdifferent commercially produced cells are reported. Process yields typically exceeded 98%. No degradation in cell performance was observed. Modules made from cell strings fabricated with the new assembly system were subjected to accelerated environmental testing per IEC 1215 and IEEE 1262 standards. Testing consisted of thermal cycling, thermal and humidity-freeze cycling, and damp heat soaking.All modules passed these qualification tests, with an average power loss of only 2.3%
    Original languageAmerican English
    Pages1331-1334
    Number of pages4
    DOIs
    StatePublished - 1996
    EventTwenty Fifth IEEE Photovoltaic Specialists Conference - Washington, D.C.
    Duration: 13 May 199617 May 1996

    Conference

    ConferenceTwenty Fifth IEEE Photovoltaic Specialists Conference
    CityWashington, D.C.
    Period13/05/9617/05/96

    NREL Publication Number

    • NREL/CP-22527

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