SSC-XS500-S21 Simulated Fluorescent Xenon Lamp Light Source Introduction: SSC-XS500-S21 simulates a fluorescent xenon lamp light source, using a newly developed xenon lamp power supply from Xinshike. The light output stability is significantly increased, with a value of<± 0.5%, which is beneficial for research fields with high stability requirements such as solar cells, photoelectrochemical PEC, simulated sunlight, and photothermal seawater evaporation. The SSC-XS500-S21 simulated fluorescent xenon lamp light source adopts a new structural design, and the wind and light path design optimizes the heat dissipation effect; Added temperature monitoring protection for light bulbs and system safety; The power-off delay function increases the service life of the light bulb; The internal light source can be equipped with 350W and 500W high-voltage short arc spherical xenon lamps, which form arc discharge under high-frequency and high-voltage excitation. High voltage short arc spherical xenon lamp is a point light source with a very small emission point. When ignited, it emits a strong and stable continuous spectrum of ultraviolet, visible, and near-infrared light. The visible region color is similar to sunlight, with high energy density and stable output. It is used in solar cell research, as well as in the testing of photoelectric responsive devices, I-V performance testing of solar cells, photocatalysis, photoelectrochemical analysis, biological lighting, photocatalysis, seawater evaporation, and other fields. This series of light sources can be compatible with various specifications, brands, imported and domestic filters and lenses (25.4mm, 50.8mm, M52, M62, etc.). Xinshike can provide various specifications of quartz filters, reflectors, K9 optical filters, etc. Visible light: solar cell testing, simulated sunlight, point light source output, fiber optic extraction, uniform parallel light. By using AM1.5 filters in conjunction, it is possible to achieve a better fit with the solar spectrum, resulting in better product performance and application. When used in conjunction with an adjustable light beam, the illumination area of the spot can be adjusted, with a continuous adjustable illumination area of 3mm to 50mm in diameter. characteristic: 1. High quality optical lenses improve light collection efficiency; 2. Adopting a backside reflective mirror structure to improve light collection efficiency; 3. Built in adjustment platform, which can achieve optical precision adjustment; 4. Complete range of accessories, including fiber optic connections and various filters; 5. Color temperature up to 6000K, simulating sunlight; 6. The refrigeration method adopts fan air cooling and temperature protection function. Technical parameters: Model: SSC-XS500-S21 Simulated Fluorescent Xenon Lamp Light Source Bulb type: Spherical xenon lamp Xenon lamp system: built-in bulb temperature monitoring, fan delay and other functions, current display Optical power usage range (1Sun=100mw/cm2): 0.1-7Sun Maximum power: 300-500W Current regulation range: 15A-25A (lighting voltage ± 15KV, working voltage DC20V) Main emission spectrum range: 300-2500nm, standard AM1.5, achieving solar spectrum simulation Light intensity power density: 10-700 mW/cm2; Simulated sunlight<300mW/cm2 Power stability: ± 0.01% Light source stability:<± 0.5% Parallel spot diameter: 30-60mm Spot light output diameter: 2-3mm, optional with 5mm optical fiber for use Zoom function: can change the size of the light output circular spot Bulb lifespan: 500-1000 hours Cooling method: air cooling
Introduction: SSC-XS500-S21 simulates a fluorescent xenon lamp light source, using a newly developed xenon lamp power supply from Xinshike. The light output stability is significantly increased, with a value of<± 0.5%, which is beneficial for research fields with high stability requirements such as solar cells, photoelectrochemical PEC, simulated sunlight, and photothermal seawater evaporation. The SSC-XS500-S21 simulated fluorescent xenon lamp light source adopts a new structural design, and the wind and light path design optimizes the heat dissipation effect; Added temperature monitoring protection for light bulbs and system safety; The power-off delay function increases the service life of the light bulb; The internal light source can be equipped with 350W and 500W high-voltage short arc spherical xenon lamps, which form arc discharge under high-frequency and high-voltage excitation. High voltage short arc spherical xenon lamp is a point light source with a very small emission point. When ignited, it emits a strong and stable continuous spectrum of ultraviolet, visible, and near-infrared light. The visible region color is similar to sunlight, with high energy density and stable output. It is used in solar cell research, as well as in the testing of photoelectric responsive devices, I-V performance testing of solar cells, photocatalysis, photoelectrochemical analysis, biological lighting, photocatalysis, seawater evaporation, and other fields. This series of light sources can be compatible with various specifications, brands, imported and domestic filters and lenses (25.4mm, 50.8mm, M52, M62, etc.). Xinshike can provide various specifications of quartz filters, reflectors, K9 optical filters, etc. Visible light: solar cell testing, simulated sunlight, point light source output, fiber optic extraction, uniform parallel light. By using AM1.5 filters in conjunction, it is possible to achieve a better fit with the solar spectrum, resulting in better product performance and application. When used in conjunction with an adjustable light beam, the illumination area of the spot can be adjusted, with a continuous adjustable illumination area of 3mm to 50mm in diameter.
