PLS-LAM series DC long arc mercury lamp light source Introduction: Mercury lamp light sources have been widely used in scientific research, production, military, medical and teaching fields, including spectroscopy, photochemistry, bio optics research, polymer photopolymerization, photopolymerization, nanomaterials, photosensitive materials, photoelectric conversion materials and other fields; Detection and analysis of faint traces in public security criminal cases; Analysis of various mineral deposit samples such as petroleum; Surface scratch detection of surface acoustic wave devices, semiconductor devices, etc; Applications in areas such as photographic plate making, photolithography, etc. The characteristic spectra of the PLS-LAM series DC long arc mercury lamp light source include 312 nm, 365 nm, 405 nm, 435 nm, 546 nm, and 578 nm, which meet the needs of various experimental scenarios. The PLS-LAM series DC long arc mercury lamp light source adopts a bare lamp tube structure, which can be matched with an internal illuminated reactor to meet the reaction requirements of the light source. The utilization efficiency of light is significantly better than that of the external reactor of the light source. The PLS-LAM series DC long arc mercury lamp light source includes two basic light sources, PLS-LAM-250 and PLS-LAM-500, and an upgraded light source, PLS-DLAM-500. The PLS-LAM-250 and PLS-LAM-500 of the basic light source have an electrical power of 250 W and 500 W, respectively, and a lamp tube length of 115 mm and 230 mm, respectively. Different sizes and powers can meet the needs of different usage scenarios. Technical parameters: Power supply: AC220 V/6 A Standard electric power: 500 W Current regulation range: not adjustable Current display mode: Instrument Light bulb length: 230 mm Output fluctuation: ≤± 0.85% Cooling method: The host is forced to air cool, and the light bulb can be cooled by an external cooling fan or cold trap Working temperature: 15~45 ℃ Average lifespan of light bulb: 1000 hours
Introduction: Mercury lamp light sources have been widely used in scientific research, production, military, medical and teaching fields, including spectroscopy, photochemistry, bio optics research, polymer photopolymerization, photopolymerization, nanomaterials, photosensitive materials, photoelectric conversion materials and other fields; Detection and analysis of faint traces in public security criminal cases; Analysis of various mineral deposit samples such as petroleum; Surface scratch detection of surface acoustic wave devices, semiconductor devices, etc; Applications in areas such as photographic plate making, photolithography, etc. The characteristic spectra of the PLS-LAM series DC long arc mercury lamp light source include 312 nm, 365 nm, 405 nm, 435 nm, 546 nm, and 578 nm, which meet the needs of various experimental scenarios. The PLS-LAM series DC long arc mercury lamp light source adopts a bare lamp tube structure, which can be matched with an internal illuminated reactor to meet the reaction requirements of the light source. The utilization efficiency of light is significantly better than that of the external reactor of the light source. The PLS-LAM series DC long arc mercury lamp light source includes two basic light sources, PLS-LAM-250 and PLS-LAM-500, and an upgraded light source, PLS-DLAM-500. The PLS-LAM-250 and PLS-LAM-500 of the basic light source have an electrical power of 250 W and 500 W, respectively, and a lamp tube length of 115 mm and 230 mm, respectively. Different sizes and powers can meet the needs of different usage scenarios.
