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首页> 外文会议>IEEE Photovoltaic Specialists Conference >Post-Metallization Passivated Edge Technology (PET) for Bifacial Silicon Shingle Solar Cells - pSPEERPET
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Post-Metallization Passivated Edge Technology (PET) for Bifacial Silicon Shingle Solar Cells - pSPEERPET

机译:金属化后钝化边缘技术(PET)用于双流硅瓦片太阳能电池 - PSPEERPET

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We present results in post-metallization “passivated edge technology” (PET) and its application on bifacial p-type silicon shingle solar cells. Host cells (full cells with shingle metallization layout after contact firing) separated by either thermal laser separation (TLS) or conventional laser scribe and mechanical cleave (LSMC) show similar drops in pseudo fill factor pFF of -1.2%abs• After PET, the TLS-separated cells regain 50%relof the pFF-drop, i.e. ApFF = +0.6%abs, while the LSMC-separated ones regain 17%relin pFF after PET, i.e. ApFF = +0.2%abs• Bifacial shingle solar cells processed with TLS and PET attain a peak designated area output power density of 23.5 mW/cm2that is 0.4 mW/cm2higher than a LSMC-separated shingle cell without PET (considering 100 W/ m2 irradiance from the rear side). The PET leads to improved cell results after separation into shingle cells. The edge passivation is most effective when applied on cells with TLS-separated and thus smooth edges.
机译:在后金属化,我们目前的结果“钝化边缘技术”(PET)及其对双面p型硅木瓦太阳能电池应用。宿主细胞(全电池接触烧成后瓦金属化布局)分离由任一热激光分离(TLS)或者传统的激光划片和机械切割(LSMC)示出了在伪填充因子PFF的类似滴-1.2 ABS •PET后,将TLS-分离的细胞恢复50 rel 的PFF滴,即ApFF = 0.6 ABS ,而LSMC分隔那些恢复17 rel 在PFF PET后,即ApFF = 0.2 ABS •双面瓦与TLS和PET加工太阳能电池达到的23.5毫瓦/平方厘米的峰值指定区域的输出功率密度 2 即0.4毫瓦/平方厘米 2 比没有PET一个LSMC分隔木瓦细胞更高(考虑100W /平方米从后侧辐照度)。的PET导致分离成木瓦细胞后改善的细胞的结果。当细胞用TLS-分离并因此平滑的边缘施加的边缘钝化是最有效的。

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