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Results of the IX International Spectroradiometer Intercomparison and impact on precise measurements of new photovoltaic technologies
Progress in Photovoltaics ( IF 8.0 ) Pub Date : 2020-10-08 , DOI: 10.1002/pip.3347 D. Pavanello 1 , R. Galleano 1 , W. Zaaiman 1 , M. Ankit 2 , N. Kouremeti 3 , J. Gröbner 3 , K. Hoogendijk 4 , M. Po 4 , E.F. Lisbona 5 , W. Alius 5 , D. Dosenicova 5 , I. Kroeger 6 , D. Friedrich 6 , E. Haverkamp 7 , A. Minuto 8 , E. Celi 8 , M. Pravettoni 9 , G. Bellenda 10 , R. Fucci 11
Progress in Photovoltaics ( IF 8.0 ) Pub Date : 2020-10-08 , DOI: 10.1002/pip.3347 D. Pavanello 1 , R. Galleano 1 , W. Zaaiman 1 , M. Ankit 2 , N. Kouremeti 3 , J. Gröbner 3 , K. Hoogendijk 4 , M. Po 4 , E.F. Lisbona 5 , W. Alius 5 , D. Dosenicova 5 , I. Kroeger 6 , D. Friedrich 6 , E. Haverkamp 7 , A. Minuto 8 , E. Celi 8 , M. Pravettoni 9 , G. Bellenda 10 , R. Fucci 11
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Today's variety of photovoltaic (PV) technologies imposes new challenges to laboratories and industries to precisely measure the performance of devices and, consequently, to accurately estimate the energy yield once installed in a specific location. Spectroradiometry has become a key discipline for metrology applied to PV: Spectral irradiance is one of the three parameters according to which solar simulators are classified according to IEC 60904‐9; precise spectrum measurements are a key factor in the spectral mismatch calculation. Finally, energy rating calculations according to IEC 61853 involve spectral irradiance conditions different than the AM1.5G standard spectrum. To tackle these issues, since 2011, the International Spectroradiometer Interlaboratory Comparison (ISRC) takes place annually in different locations of Europe with the participation of laboratories, research institutes, and industry partners to assess spectral measurement capabilities and share good measurement practices and protocols. In this paper, several results of the 9th ISRC 2019 are presented, looking in particular at the impact on characterization of new technologies like organic devices (OPV), dye‐sensitized (DSSC), and perovskites.
中文翻译:
IX国际光谱辐射仪比对的结果以及对新光伏技术精确测量的影响
如今,各种各样的光伏(PV)技术给实验室和工业界带来了新的挑战,以精确地测量设备的性能,从而准确地估计安装在特定位置的能量产量。光谱辐射法已成为应用于PV的计量学的重要学科:光谱辐照度是三个参数之一,根据该参数太阳能模拟器已按照IEC 60904-9进行分类;精确的光谱测量是光谱失配计算中的关键因素。最后,根据IEC 61853进行的能量额定值计算涉及与AM1.5G标准光谱不同的光谱辐照条件。为了解决这些问题,自2011年以来,国际光谱辐射仪实验室间比较(ISRC)每年在欧洲不同地区举行,实验室,研究机构和行业合作伙伴参与,以评估光谱测量能力并共享良好的测量实践和协议。本文介绍了第9届ISRC 2019的一些结果,特别是研究了对有机器件(OPV),染料敏化(DSSC)和钙钛矿等新技术的表征产生的影响。
更新日期:2020-12-16
中文翻译:
IX国际光谱辐射仪比对的结果以及对新光伏技术精确测量的影响
如今,各种各样的光伏(PV)技术给实验室和工业界带来了新的挑战,以精确地测量设备的性能,从而准确地估计安装在特定位置的能量产量。光谱辐射法已成为应用于PV的计量学的重要学科:光谱辐照度是三个参数之一,根据该参数太阳能模拟器已按照IEC 60904-9进行分类;精确的光谱测量是光谱失配计算中的关键因素。最后,根据IEC 61853进行的能量额定值计算涉及与AM1.5G标准光谱不同的光谱辐照条件。为了解决这些问题,自2011年以来,国际光谱辐射仪实验室间比较(ISRC)每年在欧洲不同地区举行,实验室,研究机构和行业合作伙伴参与,以评估光谱测量能力并共享良好的测量实践和协议。本文介绍了第9届ISRC 2019的一些结果,特别是研究了对有机器件(OPV),染料敏化(DSSC)和钙钛矿等新技术的表征产生的影响。
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