Based on market demand and optical and structural optimization, this product has been improved in multiple aspects, including appearance optimization, structural miniaturization, adaptation to heat-dissipation scenarios, optical stability, and electrical parameter stability. The product mainly consists of four parts: the light source, the power box, the beam-steering filter, and accessories. Each part can be customized according to different user requirements.
Stronger: Significant increase in light intensity
The PLS-CS300 xenon lamp source has achieved a substantial increase in output optical power through lamp housing adjustments and optimization of the light-guiding structure. According to preliminary test results, under different current conditions (with the same arrangement distance and other conditions), the optical power increased by more than 30% in each case. This level of improvement in optical power will significantly promote more, faster, and broader photocatalytic applications.
| Current condition | PLS-CS300 xenon lamp source (power increase) |
|---|---|
| 10 A | 45% |
| 13 A | 40% |
| 15 A | 37% |
| 17 A | 34% |
| 19 A | 32% |
| 21 A | 30% |
Faster: Easier bulb replacement
Replacing the bulb in other xenon lamp sources usually requires disassembling the chassis and cooling structure, which is relatively complicated. The PLS-CS300 xenon lamp source’s special structural design requires only the six steps “loosen, turn, clean, blow, replace, tighten” to complete the bulb replacement, taking less than 10 minutes and saving more than 20 minutes compared with other light sources.
Smaller: Compact size for flexible integration
The PLS-CS300 xenon lamp source is more compact than other light sources: the lamp housing volume is about one-third of the original, and the power box volume is reduced by about 25%.
▲Highly suitable ●Moderately suitable ○Usable
▲Photocatalytic water splitting for hydrogen/oxygen production, overall water splitting, photocatalytic CO2 reduction
▲Photodegradation of gaseous pollutants, such as VOCs, formaldehyde, nitrogen oxides, sulfur oxides, etc.
▲Photodegradation of liquid pollutants, such as dyes, benzene and benzene derivatives
▲Photocatalytic quantum efficiency measurement, PEC photoelectrochemistry, photosynthesis, membrane photocatalysis, photochromism
| Technical Specifications | |||
| Output power range | 150 ~ 300 W | Standard spectral range | 320 ~ 780 nm, 200 ~ 2500 nm |
| Beam-steering filter | Available, can accommodate a filter device | Power fluctuation | ±2% |
| Filter mount | M52×0.75, clear aperture 46.5 mm | Current adjustment range | 10 ~ 22 A |
| Working spot diameter | Free diameter ≥ 30 mm | Weight | 7.8 kg |
| Light output format | Horizontal or vertical irradiation; freely rotatable about the optical axis | Dual over-temperature protection (power supply/light source) | Yes |
| Collimated beam divergence angle | Average 6° | Operating time counter | Yes |
| Lamp lifetime | Not less than 1000 h | Digital display for current and voltage | Yes |
