PL-X300DF high performance analog daylight xenon lamp source Introduction:
The PL-X300DF high-performance analog daylight xenon lamp source is an ideal source for simulating sunlight. An internal 300W high-voltage short-arc xenon lamp is installed inside the light source to form an arc discharge under high-frequency high-voltage excitation. The high-voltage short-arc spherical xenon lamp is a point source with a small luminous point. The light wave radiated during ignition is strong and stable. The strong continuous spectrum from ultraviolet to near-infrared has stable output and is widely used in photocatalysis, industrial catalysis, and photolysis of hydrogen. , photoelectrochemical catalysis, photochemical synthesis, photodegradation of pollutants, water pollution treatment, biological illumination, optical detection, various types of simulated sunlight visible light acceleration experiments accelerated research fields. Technical Parameters:
Equipment model: PL-X300DF
Electric power: 320W
Lamp input power: 150 ~ 320W (adjustable)
Working current: 22A
Light bulb window: 25.4mm
Luminescence spectrum: 320nm~2500nm
Output light intensity: adjustable light intensity
Working spot diameter: varies with distance
Parallel light divergence angle: about 15°
Filter mounting method: Threaded connection
Light output form: 6-sided spot
Light collection method: ellipsoid total reflection
Light box heat dissipation form: fan and high efficiency cooling module
Beam output angle: horizontal, vertical (conventional)
Lamp life: >1000H
Auxiliary accessories: Manual optical switch (requires additional)
Introduction:
The PL-X300DF high-performance analog daylight xenon lamp source is an ideal source for simulating sunlight. An internal 300W high-voltage short-arc xenon lamp is installed inside the light source to form an arc discharge under high-frequency high-voltage excitation. The high-voltage short-arc spherical xenon lamp is a point source with a small luminous point. The light wave radiated during ignition is strong and stable. The strong continuous spectrum from ultraviolet to near-infrared has stable output and is widely used in photocatalysis, industrial catalysis, and photolysis of hydrogen. , photoelectrochemical catalysis, photochemical synthesis, photodegradation of pollutants, water pollution treatment, biological illumination, optical detection, various types of simulated sunlight visible light acceleration experiments accelerated research fields.