The interest in Ultra-High Concentrator Photovoltaic (UHCPV) devices has motivated the use of solar cells under ultra-high irradiance levels (+1000 suns). Temperature effects and variations in the spectrum of the incoming light on the solar cells need to be analysed to understand their performance under real operating conditions. In this work an experimental setup, based on an indoor multi-flash solar simulator, is presented. This arrangement allows high efficiency multi-junction solar cells to be characterized up to 1500 suns of irradiance under controlled conditions of temperature and spectrum. Also, different I-V curves obtained by varying each of these parameters separately are attached.

对超高聚光光伏（UHCPV）器件的兴趣促使人们在超高辐照度（+1000太阳）下使用太阳能电池。需要分析温度效应和入射光在太阳能电池上的光谱变化，以了解其在实际工作条件下的性能。在这项工作中，提出了一种基于室内多闪光灯太阳能模拟器的实验装置。这种布置允许在受控的温度和光谱条件下，将高效率的多结太阳能电池表征为高达1500太阳的辐照度。另外，附加了通过分别改变这些参数中的每一个而获得的不同IV曲线。