光电技术应用
光電技術應用
광전기술응용
ELECTRO-OPTIC WARFARE & RADAR PASSIVE COUNTERMEASURES
2013年
1期
18-24
,共7页
高方阻发射结%晶体硅电池%转换效率
高方阻髮射結%晶體硅電池%轉換效率
고방조발사결%정체규전지%전환효솔
high sheet resistance emitter%crystalline silicon solar cell%conversion efficiency
主要介绍了晶体硅太阳电池光电转换效率的工艺优化,特别是对高发射结方阻方面,以及后道工序中如何使之适应高方阻工艺.在高方阻方面主要采用了深结高方阻,这主要是从工艺稳定性方面考虑.通过一系列工艺的优化及大量实验,获得了高达635 mV的开路电压,5.817 A的短路电流,均值18.67%的电池效率.
主要介紹瞭晶體硅太暘電池光電轉換效率的工藝優化,特彆是對高髮射結方阻方麵,以及後道工序中如何使之適應高方阻工藝.在高方阻方麵主要採用瞭深結高方阻,這主要是從工藝穩定性方麵攷慮.通過一繫列工藝的優化及大量實驗,穫得瞭高達635 mV的開路電壓,5.817 A的短路電流,均值18.67%的電池效率.
주요개소료정체규태양전지광전전환효솔적공예우화,특별시대고발사결방조방면,이급후도공서중여하사지괄응고방조공예.재고방조방면주요채용료심결고방조,저주요시종공예은정성방면고필.통과일계렬공예적우화급대량실험,획득료고체635 mV적개로전압,5.817 A적단로전류,균치18.67%적전지효솔.
Technology optimization of electro-optical conversion efficiency of crystalline silicon solar cell is introduced. High emitter sheet resistance and how to adapt to the technology of high sheet resistance in follow?ing procedures are introduced especially. Considering of technology stability, the method of deep PN junction high sheet resistance is mainly used on the area of high sheet resistance. The open circuit voltage of 635 mV, the short circuit current of 5.817 A and the average cell efficiency of 18.67%have been achieved through a series of technology optimizations and a lot of experiments.
