空间电子技术
空間電子技術
공간전자기술
SPACE ELECTRONIC TECHNOLOGY
2015年
3期
103-106
,共4页
院小雪%臧卫国%于钱%杨东升%周晶晶%姜海富
院小雪%臧衛國%于錢%楊東升%週晶晶%薑海富
원소설%장위국%우전%양동승%주정정%강해부
非金属材料%放气%污染%镓铟磷电池%透过率%短路电流
非金屬材料%放氣%汙染%鎵銦燐電池%透過率%短路電流
비금속재료%방기%오염%가인린전지%투과솔%단로전류
Non-metal materials%Outgassing%contamination%GaInP solar cell%Transmittance%Short circuit
非金属材料放气是造成太阳电池性能下降的因素之一。为提高镓铟磷电池的应用效率,文章以航天器常用硅橡胶作为放气源,通过电池性能与遮光率关系试验和理论数据分析了材料放气对镓铟磷电池的性能影响,同时通过污染物沉积量与电池性能关系试验加以验证。研究发现,随着非金属材料放气沉积量的增多,镓铟磷电池的短路电流不断减小。当污染沉积量达到1.06×10-6 g/cm2时,镓铟磷电池变化率为0.03%;当污染沉积量达到2.89×10-5 g/cm2时,镓铟磷电池变化率为2.05%;当污染沉积量达到1.78×10-4 g/cm2时,镓铟磷电池变化率为31.41%。
非金屬材料放氣是造成太暘電池性能下降的因素之一。為提高鎵銦燐電池的應用效率,文章以航天器常用硅橡膠作為放氣源,通過電池性能與遮光率關繫試驗和理論數據分析瞭材料放氣對鎵銦燐電池的性能影響,同時通過汙染物沉積量與電池性能關繫試驗加以驗證。研究髮現,隨著非金屬材料放氣沉積量的增多,鎵銦燐電池的短路電流不斷減小。噹汙染沉積量達到1.06×10-6 g/cm2時,鎵銦燐電池變化率為0.03%;噹汙染沉積量達到2.89×10-5 g/cm2時,鎵銦燐電池變化率為2.05%;噹汙染沉積量達到1.78×10-4 g/cm2時,鎵銦燐電池變化率為31.41%。
비금속재료방기시조성태양전지성능하강적인소지일。위제고가인린전지적응용효솔,문장이항천기상용규상효작위방기원,통과전지성능여차광솔관계시험화이론수거분석료재료방기대가인린전지적성능영향,동시통과오염물침적량여전지성능관계시험가이험증。연구발현,수착비금속재료방기침적량적증다,가인린전지적단로전류불단감소。당오염침적량체도1.06×10-6 g/cm2시,가인린전지변화솔위0.03%;당오염침적량체도2.89×10-5 g/cm2시,가인린전지변화솔위2.05%;당오염침적량체도1.78×10-4 g/cm2시,가인린전지변화솔위31.41%。
Non-metal materials outgassing is one of the factors degrading performance of solar cells. To improve the ap-plication efficiency,silicone rubber commonly used in spacecraft was chosen as outgassing source,the article analyzed the effects of non-metal materials outgassing on GaInP solar cell through the relationship test between the performance of solar cell and shading ratio,and it was confirmed by the relationship test between the amount of contaminants deposited and per-formance of solar cell. The results showed that the short circuits of GaInP solar cells decrease with increasing amount of con-taminants deposited. The change rate of the short circuit of GaInP solar cells increases from 0. 03% to 2. 05% as the amount of contaminants deposited increases from1. 06 × 10 -6 g/cm2 to 2. 89 × 10 -5 g/cm2 . Finally,the change rate is 31. 41%,when the depositing contaminants deposited is 1. 78 × 10 -4 g/cm2 .