Combining design of experiments and power loss computations to study the screen printing process

S. Thibert, J. Jourdan, B. Bechevet, J. Faissat, S. Mialon, D. Chaussy, N. Reverdy-Bruas, D. Beneventi
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引用次数: 2

Abstract

The screen printing process applied to the front side metallization of silicon solar cell was studied with a full factorial 324161 design of experiments on an industrial line. Four commercially silver pastes from different suppliers, six apertures, and nine stainless screens were used to analyze the printing results of two hundred and sixteen combinations. The fingers geometrical properties, the line resistivity, and the contact resistivity were inputted in a power loss simulation program to compute the optimal fingers spacing and the theoretical efficiency for each combination. The relative contribution and the effect of all factors and interactions on the solar cell efficiency were calculated to find out general guidelines for process optimization. Finally, a confirmation test was performed on mixed batches of 15.6 × 15.6 cm2, 200 μm thick Cz-Si solar cells to validate assumptions. With an optimized process a maximal 19.2 % efficiency was reached.
结合实验设计和功率损耗计算对丝网印刷过程进行研究
采用全因子324161工业试验设计,研究了硅太阳能电池正面金属化的丝网印刷工艺。来自不同供应商的四种商业银浆、六种孔径和九种不锈钢丝网被用来分析216种组合的印刷结果。将手指的几何特性、线电阻率和接触电阻率输入到功率损耗模拟程序中,计算出最佳手指间距和每种组合的理论效率。计算了各种因素和相互作用对太阳能电池效率的相对贡献和影响,从而得出工艺优化的一般准则。最后,对15.6 × 15.6 cm2, 200 μm厚的Cz-Si太阳能电池进行了验证试验。优化后的工艺效率最高可达19.2%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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