CEL-S500-T10 Intelligent Simulated Fluorescent Xenon Lamp Light Source Introduction: The CEL-S500-T10 intelligent simulated daylight xenon lamp light source uses a xenon lamp power supply developed by Zhongjiao Jinyuan, combined with a fiber optic optical power feedback system, to achieve a significant increase in light output stability of<± 0.5%, which is beneficial for research fields with high stability requirements such as solar cells, photoelectrochemical PEC, and photothermal seawater evaporation. The structural design adopted by CEL-S500-T10 analog fluorescent xenon lamp light source makes the wind and light path designs more reasonable, optimizing the heat dissipation effect; Added temperature monitoring to protect light bulbs and system safety; The power outage delay function increases the service life of the light bulb; The interior of the light source can be equipped with 150W, 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 color of the visible region is very similar to sunlight, with high energy density and stable output. It is applied in solar cell research, photoelectric responsive device testing, I-V performance testing of solar cells, photocatalysis, photoelectrochemical analysis, biological lighting, photocatalysis Seawater evaporation and other fields. The S500 series light source can be compatible with various specifications, brands, imported and domestic filters and lenses (25.4mm, 50.8mm, M52, M62, etc.). Our company 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 an AM1.5 filter in combination, it can achieve a good fit with the solar spectrum, resulting in better product performance and application. With the use of adjustable light bulbs, the illumination area of the light spot can be adjusted, and the illumination area is continuously adjustable with a diameter of 3mm to 50mm. Technical parameters: Optical stability: Fiber optic feedback achieves stable output of xenon lamp light source optical power density; By using optical fibers to guide the calibrated light output into the Hamamatsu sensor, the temperature drift of the Hamamatsu sensor can be eliminated, achieving stable long-term signal feedback and stable light output. Intelligent control system: The working time and intensity of the light source can be automatically adjusted according to needs; Temperature monitoring at multiple locations such as light bulbs, power supplies, and sensors to ensure stable operation of the light source Working mode: Normal use mode (without turning on fiber optic feedback); Fiber optic feedback mode; Irradiation mode; Program intelligence mode; Optical power usage range (1Sun=100mw/cm2): 0.1-5Sun Maximum power: 300-500W Current regulation range: 15A-25A Main emission spectrum range: 300-2500nm Light intensity: 10-500mw/cm2 Power stability: ± 0.01% Light source stability: <± 0.5% Parallel spot diameter: 50-60mm Spot light output diameter: 2-3mm Zoom function: can change the size of the light output circular spot Bulb life: 500-1000 hours
Introduction: The CEL-S500-T10 intelligent simulated daylight xenon lamp light source uses a xenon lamp power supply developed by Zhongjiao Jinyuan, combined with a fiber optic optical power feedback system, to achieve a significant increase in light output stability of<± 0.5%, which is beneficial for research fields with high stability requirements such as solar cells, photoelectrochemical PEC, and photothermal seawater evaporation. The structural design adopted by CEL-S500-T10 analog fluorescent xenon lamp light source makes the wind and light path designs more reasonable, optimizing the heat dissipation effect; Added temperature monitoring to protect light bulbs and system safety; The power outage delay function increases the service life of the light bulb; The interior of the light source can be equipped with 150W, 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 color of the visible region is very similar to sunlight, with high energy density and stable output. It is applied in solar cell research, photoelectric responsive device testing, I-V performance testing of solar cells, photocatalysis, photoelectrochemical analysis, biological lighting, photocatalysis Seawater evaporation and other fields. The S500 series light source can be compatible with various specifications, brands, imported and domestic filters and lenses (25.4mm, 50.8mm, M52, M62, etc.). Our company 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 an AM1.5 filter in combination, it can achieve a good fit with the solar spectrum, resulting in better product performance and application. With the use of adjustable light bulbs, the illumination area of the light spot can be adjusted, and the illumination area is continuously adjustable with a diameter of 3mm to 50mm.
