CEL-LED100HA high power LED light source system Introduction: The high-power LED light source system can fully guarantee the consistency of experimental conditions and achieve long life (more than 10,000 hours), high stability and high uniformity (comparable with solar simulators) that other light sources cannot match. LED light sources have unparalleled advantages in photocatalysis, photodegradation, battery testing, photoluminescence, biology, physical optics, dye chemicals, petrochemicals and other fields. In the photoelectrochemical test and reaction experiment, the LED light source has ultra-high stability and monochromaticity of light, which is incomparable to other light sources. Features: 1) All imported high-power LED single-chip integrated arrays. 2) High efficiency, energy consumption is reduced by 80% compared with light source with the same light effect. 3) Good monochromaticity, single spectrum, consistent energy, can be used as a standard light source. 4) Horizontal and vertical illumination, adjustable front and rear position. 5) Achieving long life, high stability, and high uniformity (comparable to solar simulators) that other light sources cannot match. 6) Any adjustment of the light output intensity can be achieved and stabilized quickly. 7) The heat dissipation of the light source is forced air cooling and the light path and the air path are separated to ensure stable light output. 8) One button automatically adjusts the height of the light source Technical Parameters: Group band (16 groups in total): 365nm, 395nm, 405nm, 420nm, 455nm, 470nm, 500nm, 520nm, 590nm, 620nm, 660nm, 740nm, 810nm, 850nm, 940nm, white LED Half-wave bandwidth FWHM: 20nm Control mode: Digital display control (voltage and current display simultaneously) Optional: CEL-PHCS100 software remote control, intelligent control power. Total input power: 240W, AC220V, ±0.01% LED power consumption: <200W, DC38V, ±0.01% Working current: <5.0A (0.01A) Optical output power: 20W (±0.1%) Light output area: The diameter of the light exit is 50mm. The condenser lens can be used to adjust the spot diameter by 20-100mm. Irradiation unevenness: <2% (better than solar simulator) Optical power density: <300mw/cm2 (measured by CEL-NP2000) White light (400-780nm) optical power density <500mw/cm2 Minimum service life: 10,000 hours (except 365nm)
Introduction: The high-power LED light source system can fully guarantee the consistency of experimental conditions and achieve long life (more than 10,000 hours), high stability and high uniformity (comparable with solar simulators) that other light sources cannot match. LED light sources have unparalleled advantages in photocatalysis, photodegradation, battery testing, photoluminescence, biology, physical optics, dye chemicals, petrochemicals and other fields. In the photoelectrochemical test and reaction experiment, the LED light source has ultra-high stability and monochromaticity of light, which is incomparable to other light sources.