In this work we propose a methodology based on a mixed-mode simulation approach to evaluate the impact of finger interruptions in the front-side metallization on the solar cell performance. We apply the proposed methodology to typical finger profiles realized with double screen-printing technology. The efficiency degradation induced by finger interruptions is studied as a function of interruption size, interruption position, number of interruptions and finger resistivity.
A Methodology to Account for the Finger Interruptions in Solar Cell Performance
De Rose R;CRUPI, Felice;
2012-01-01
Abstract
In this work we propose a methodology based on a mixed-mode simulation approach to evaluate the impact of finger interruptions in the front-side metallization on the solar cell performance. We apply the proposed methodology to typical finger profiles realized with double screen-printing technology. The efficiency degradation induced by finger interruptions is studied as a function of interruption size, interruption position, number of interruptions and finger resistivity.File in questo prodotto:
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