PLS PGL-O1000 LED large-area irradiation light source Introduction: The PLS PGL-O1000 LED large-area irradiation light source is an integrated high-power LED irradiation system, which, when combined with a reflective cup, achieves light energy output, improves light energy utilization to a certain extent, and has a certain degree of irradiation uniformity on the working surface. PLS PGL-O1000 LED large-area irradiation light source can output spectra with multiple wavelengths, including single wavelength, composite light, and simulated solar light, which can be customized and applied to square meter level irradiation reaction systems. At the same time, it can also be applied to surface and three-dimensional space disinfection and sterilization, such as photosensitive virus inactivation. characteristic: 1. High power LED square meter level irradiation light source; 2. It can be adapted to various high-power LEDs at the hundred watt level; 3. PLC control is convenient and reliable, and the layered temperature control strategy ensures safety; 4. A movable bracket with continuously adjustable illumination angle. Technical parameters: Radiation area: 0.9 × 0.6 m Radiation uniformity: 70% Radiation intensity: adjustable range: 10%~100% Display: human-machine interaction power supply operation status display, radiator temperature display, timing function, etc Security Protection: Active Overheating Protection, Passive Overheating Protection Service life: 12000 hours
Introduction: The PLS PGL-O1000 LED large-area irradiation light source is an integrated high-power LED irradiation system, which, when combined with a reflective cup, achieves light energy output, improves light energy utilization to a certain extent, and has a certain degree of irradiation uniformity on the working surface. PLS PGL-O1000 LED large-area irradiation light source can output spectra with multiple wavelengths, including single wavelength, composite light, and simulated solar light, which can be customized and applied to square meter level irradiation reaction systems. At the same time, it can also be applied to surface and three-dimensional space disinfection and sterilization, such as photosensitive virus inactivation.
