brief introduction The solar simulator is used to simulate the real solar illumination conditions and is widely used in the research and quality inspection of solar photovoltaic devices. The solar simulator has the characteristics of beam collimation, light spot uniformity, spectrum matching with the sun light, and can complete the experiments that need the sun light irradiation conditions. It is applicable to various types of solar cells such as monocrystalline silicon, polycrystalline silicon, amorphous film, dye sensitization, organic, III-V semiconductor, etc. The solar simulator is not only used in the research of solar cells, but also used in the fields of photo-responsive device testing, surface photovoltage spectrum, photocatalyst, photocatalyst, liquid crystal substrate testing and evaluation, cosmetics, coatings, light-resistant experiments of various materials, photobiological inspection and testing, surface defect analysis, etc. Solar simulator (solar simulator) is used to simulate solar equipment. In the photovoltaic field, when equipped with electronic load, data acquisition and calculation equipment, it can be used to test the electrical performance of photovoltaic devices (including various solar cells), such as Pmax, lmax, Vmax, and I-V curve. characteristic: 1) Comply with the standard of AAA level simulator specified in ASTM E927-5, IEC60904-9 2007 Ed2 and JIS C8912; 2) Spectral matching grade A: 0.75-1.25; 3) Class A spatial heterogeneity: better than ± 2%; 4) Time stability class A: better than ± 2%; 5) AM1.5G air quality filter ensures perfect spectral matching; 6) High precision optical integrator, uniform light spot output; 7) USHIO, OSRAM xenon lamp bulb, slow energy attenuation, stable and reliable performance; 8) Casting structure ensures no deformation of the whole machine, stable light path, convenient movement and beautiful appearance. Technical parameters: Model: CEL-AAAS50 Spot size: 50mm × 50mm(2inch × 2inch) Working distance: 120mm ± 30 Optical collimation right angle:<± 5 ° Optical power output: 100mW/cm2 ± 20% (1Sun, 1000W/m2) Linearity: 0.01% Spectral matching grade: Grade A (0.75-1.25) Spatial heterogeneity grade: Grade A (better than ± 2%) Time stability grade: Grade A (better than ± 2%) Illumination surface irradiance: 0.7-1.2 Sun (solar constant) Light output direction: horizontal, vertical, any angle Cooling mode: air cooling and heat dissipation module
brief introduction The solar simulator is used to simulate the real solar illumination conditions and is widely used in the research and quality inspection of solar photovoltaic devices. The solar simulator has the characteristics of beam collimation, light spot uniformity, spectrum matching with the sun light, and can complete the experiments that need the sun light irradiation conditions. It is applicable to various types of solar cells such as monocrystalline silicon, polycrystalline silicon, amorphous film, dye sensitization, organic, III-V semiconductor, etc. The solar simulator is not only used in the research of solar cells, but also used in the fields of photo-responsive device testing, surface photovoltage spectrum, photocatalyst, photocatalyst, liquid crystal substrate testing and evaluation, cosmetics, coatings, light-resistant experiments of various materials, photobiological inspection and testing, surface defect analysis, etc. Solar simulator (solar simulator) is used to simulate solar equipment. In the photovoltaic field, when equipped with electronic load, data acquisition and calculation equipment, it can be used to test the electrical performance of photovoltaic devices (including various solar cells), such as Pmax, lmax, Vmax, and I-V curve.
