PLS-SME300E H1 Xenon Lamp Light Source Introduction: The PLS-SME300E H1 xenon lamp light source can provide strong light output from the ultraviolet region to the near-infrared region. The overall enclosure adopts a non-metallic shell with high insulation resistance to ensure the safety of the xenon lamp light source. At the same time, the compact enclosure has strong versatility, flexibility, and easy mobility, which can meet the needs of multi-directional illumination experiments in small spaces. The PLS-SME300E H1 xenon lamp light source is widely used in research fields such as photocatalytic water splitting for hydrogen/oxygen production, photocatalytic total water splitting, photocatalytic CO2 reduction, and photocatalytic degradation of pollutants. The PLS-SME300E H1 xenon lamp light source can achieve high energy density and long-term continuous irradiation, and can be used in conjunction with various reaction systems to complete online and offline analysis experiments of solid, liquid, and gas phases. The PLS-SME300E H1 xenon lamp light source has the following two working modes: 1. Electric control mode, also known as constant current mode, where the power supply of the xenon lamp light source is constant; 2. Light control mode, also known as constant light irradiance mode, can monitor the output light intensity of the xenon lamp light source in real time according to the user's set light intensity value. It uses a built-in optical light feedback module to automatically adjust the light intensity, making the average irradiation intensity more accurately controlled within the set value in relative time, and improving the accuracy of photocatalytic experimental values. characteristic: 1. New optical structure design, significantly improving light efficiency; 2. Add upper computer software control, which can control and monitor the status of the light source through the computer; 3. It has a timed shutdown function and can arrange experimental time reasonably; 4. Adopting optical feedback technology to achieve long-term stable output of light intensity; 5. It has two working modes: constant irradiance output and constant current output; 6. A brand new heat dissipation structure enhances the stability of the light source and improves luminous efficiency; 7. Multiple accessories are available for selection, suitable for a wide range of experimental scenarios, and can be used in conjunction with the Bofulei photothermal catalytic reaction series devices. Technical parameters: Light bulb power: 300 W; Instantaneous stability of power supply: ± 0.3%; Current display mode: digital display; Working modes: electronic control mode, light control mode; Adjust current limit value: 25 A; Lamp (consumable) service life:>1000 hours; Trigger method: Integrated high voltage trigger, secondary voltage and no high voltage transmission; The upper computer software control is equipped with a human-machine interaction network serial port to enhance the user experience of human-machine interaction. A precision optical feedback system that directly measures changes in light output. Total optical power: 75 W; Spectral range: 320-780 nm, expandable to 2500 nm; Spot diameter: 30-60 mm; Maximum light intensity output: 3000 mW/cm2; Matching filters: UV region, visible region, near-infrared region, and narrowband light; Long term instability: ≤± 3%; Programmable all digital power management based on microprocessors; New power supply design, safer and more reliable;
Introduction: The PLS-SME300E H1 xenon lamp light source can provide strong light output from the ultraviolet region to the near-infrared region. The overall enclosure adopts a non-metallic shell with high insulation resistance to ensure the safety of the xenon lamp light source. At the same time, the compact enclosure has strong versatility, flexibility, and easy mobility, which can meet the needs of multi-directional illumination experiments in small spaces. The PLS-SME300E H1 xenon lamp light source is widely used in research fields such as photocatalytic water splitting for hydrogen/oxygen production, photocatalytic total water splitting, photocatalytic CO2 reduction, and photocatalytic degradation of pollutants. The PLS-SME300E H1 xenon lamp light source can achieve high energy density and long-term continuous irradiation, and can be used in conjunction with various reaction systems to complete online and offline analysis experiments of solid, liquid, and gas phases. The PLS-SME300E H1 xenon lamp light source has the following two working modes: 1. Electric control mode, also known as constant current mode, where the power supply of the xenon lamp light source is constant; 2. Light control mode, also known as constant light irradiance mode, can monitor the output light intensity of the xenon lamp light source in real time according to the user's set light intensity value. It uses a built-in optical light feedback module to automatically adjust the light intensity, making the average irradiation intensity more accurately controlled within the set value in relative time, and improving the accuracy of photocatalytic experimental values.
