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PLS-LED100C High power LED light source

Product classification:LED light source brand:perfectlight view count:2211

Research purpose:



PLS-LED is a high power LED100C light source able for longtime continuously working, and it is special for scientific application. This PLS-LED100C light source is high efficient, stable and long-life. It has constant current control power supply, abundant data display, such as current, voltage, power and time. The light box structure is reliable and has a rich wavelength - spectrum selectivity.


Main technical parameters and characteristics:

◆ High power LED, high efficient narrow band spectrum output, high stability, long life;

◆ Output variety, diffusion, scattering, etc., round and square spot are available;

◆ Parameters are fully digital, working current, voltage, power and time are all digital.

◆ Attached function: Adjustable lifting bracket, the lamp box has a rotary range of 0 ~ 360°;

◆ Multi-functional control system, program control is available.

◆ Available Wavelength range:

①Single-Color Series: UV - near infrared 365~370~375~380~385~390~395~400~410~420~430~440~450~460~470~475~490~500~520~525~560~565~585~595~605~620~630~660~730~740 (nm)

②White light series: Warm white (Color temperature 3000-3300K), Natural white (4000-4500K), Pure white (6000-6500K), Cool White (>7000K), warm yellow (1900-2100K)
③Special lights: Plant lights, red blue (660/460) 9:1 8:2 ... 1:9, pink bead (380-840), multi-band LED light beads (6 color, 7 color, etc.)

◆ Cooling methods: Copper and aluminum composite heat sink + axial air cooling;

◆ Divergent light spot: Φ38mm, extension tube, Divergence angle is about 90°;

◆ Parallel light spot: Φ50~60mm, Focusing lens tube, optical uniformity on receives surfaces is better than 70%.


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[2] Q. Mu, W. Zhu, X. Li, et al., Electrostatic charge transfer for boosting the photocatalytic CO2 reduction on metal centers of 2D MOF/rGO heterostructure, Applied Catalysis B: Environmental, 2020, 262, 118144.

[3] S. Xu, P. Zhou, Z. Zhang, et al., Selective Oxidation of 5-Hydroxymethylfurfural to 2,5-Furandicarboxylic Acid Using O2 and a Photocatalyst of Co-thioporphyrazine Bonded to g-C3N4J Am Chem Soc, 2017, 139, 14775-14782.