Introduction: The solar simulator is used to simulate the real sunlight conditions and is widely used in the research and quality inspection of solar photovoltaic devices. The solar simulator has the characteristics of beam collimation, uniform spot, and spectrum matching with sunlight. It can complete experiments that require sunlight conditions. It is suitable for monocrystalline silicon, polycrystalline silicon, amorphous film, dye-sensitized, organic, and III- Various types of solar cells such as group V semiconductors. Solar simulators are not only used for solar cell research, but also for photoelectric response device testing, surface photovoltage spectroscopy, photocatalysis, photocatalyst, liquid crystal substrate testing and evaluation, cosmetics, coatings, light resistance experiments of various materials, and photobiological Inspection and testing, surface defect analysis and other fields. Suitable for experiments: solar cell research, photoelectric response device testing, surface photovoltage spectroscopy, photocatalysis, photocatalyst, liquid crystal substrate testing and evaluation, cosmetics, coatings, light resistance experiments of various materials, photobiological inspection and testing, Surface defect analysis. Features: 1. Comply with ASTM E927-5, IEC60904-9 2007 Ed2, JIS C8912 standards for AAA level simulators 2. Spectral matching degree A: 0.75-1.25 3. Spatial unevenness A grade: better than ±2% 4. Time stability level A: better than ±2% 5. AM1.5G air quality filter to ensure perfect spectral matching 6. High-precision optical integrator, uniform light spot output 7. USHIO, OSRAM xenon lamp bulbs, slow energy attenuation, stable and reliable performance 8. The casting structure ensures that the whole machine has no deformation, the light path is stable, it is convenient to move, and the appearance is beautiful. Technical Parameters: Effective area: better than 100mmx100mm Collimation angle<±2.5o Light output energy 100mW/cm2±20% AM1.5G filter Spatial unevenness is better than ±2%, Class A [Spatial unevenness reference standard: A (IEC 60904-9 2007); A (JIS C 8912); A (ASTM E927-05)] Irradiation instability is better than ±2%: 0.5% STI; 2.0% LTI, Class A [Radiation instability reference standard: A (IEC 60904-9 2007); A (JIS C 8912); A (ASTM E927) -05) Spectral adaptation: 13.8%-23.0% (400-500nm); 14.9%-24.9% (500-600nm); 3.9-23.0% (600-700nm); 1.2%-18.6% (700-800nm); 9.4%- 15.6% (800-900nm); 11.9%-19.3% (900-1100nm), Class A [Spectral adaptation reference standard: A (IEC 60904-9 2007); A (JIS C 8912); A (ASTM E927-05 ) Working distance: 330mm Light source power: 500W Xenon lamp bulb: imported brand Simulator box: casting structure to ensure the stability of the simulator's optical path Shimming technology: double fly eye lens combination Power supply: output power 300W current adjustment range: 5-15A current stability: ≤0.05% input voltage, 220VAC±20% /50Hz Lamp time counter, built-in mechanical shutter
Introduction: The solar simulator is used to simulate the real sunlight conditions and is widely used in the research and quality inspection of solar photovoltaic devices. The solar simulator has the characteristics of beam collimation, uniform spot, and spectrum matching with sunlight. It can complete experiments that require sunlight conditions. It is suitable for monocrystalline silicon, polycrystalline silicon, amorphous film, dye-sensitized, organic, and III- Various types of solar cells such as group V semiconductors. Solar simulators are not only used for solar cell research, but also for photoelectric response device testing, surface photovoltage spectroscopy, photocatalysis, photocatalyst, liquid crystal substrate testing and evaluation, cosmetics, coatings, light resistance experiments of various materials, and photobiological Inspection and testing, surface defect analysis and other fields. Suitable for experiments: solar cell research, photoelectric response device testing, surface photovoltage spectroscopy, photocatalysis, photocatalyst, liquid crystal substrate testing and evaluation, cosmetics, coatings, light resistance experiments of various materials, photobiological inspection and testing, Surface defect analysis.
