|Power:||0.5W||Narrow Wavelength:||306-310nm(290-300nm, 300-306nm, 310-315nm Are Also Available)|
|Input Current:||50(Max=60mA)||Input Voltage:||5-7V|
|Substrates:||ALN Coppering||LENS:||Quartz Glass Lens|
|View Angle:||120DEG||Chips Brand:||Imported Level-A LG/PW Chips|
308NM UVB LED Chips,
Therapy Light UVB LED Chips,
315NM UVB LED Chip
Efficiency & long life span UVB 308NM 310NM 315NM LED Chips for Therapy light application
Specification of SMD LED Chips
|Radiant Power||Whole Size|
Thick 3535 ALN Coppering Substrates with New Generation Flip chip LG/Seoul semi/Dowa/PW Packing technology, Results in a good heat conductive(Thermal resistance 0.1-0.2C/W) & Long Life span(LM50 10000Hrs) & Efficiency in Sterilization purpose.
What are the applications of UV LED lamp beads in emerging fields?
In the field of photocatalyst, UV LED lamp beads irradiating photocatalyst can decompose organic pollution sources (formaldehyde, VOC) in the passing air into non-toxic and pollution-free water and carbon dioxide, and UV LED lamp beads oxidize inorganic pollutants (NOx, NH3) into NO3-, and then realize the functions of sterilization and disinfection, decomposition of air pollutants and other functions. (A brief explanation here: Photocatalyst is a composite word of light + catalyst (catalyst). Photocatalyst is a general term for photo-semiconductor materials with photocatalytic function represented by nano-scale titanium dioxide. The most ideal material. )
The application of UV LED lamp beads in the field of phototherapy is also gradually popularized. UVB LED lamp beads can effectively treat various skin diseases such as psoriasis and vitiligo. Compared with the traditional NB UVB ultraviolet phototherapy device and excimer laser therapy device, the UVB-LED lamp beads can be made more compact, easy to carry and use, and have more prominent advantages.
Teatment effect of 308nm uvb:
In addition, UV LED lamp beads can also be used for plant growth. In recent years, indoor and greenhouse cultivation has flourished, solving the problem of lack of fresh vegetables in winter in cold regions. However, some of the indoor and greenhouse vegetables and fruits on the market have quality problems such as dark color and stale taste. There are many reasons for this, but the lack of light, especially the lack of ultraviolet components in normal light, may be the key factor. Studies have found that supplementing a certain dose of UV irradiation in greenhouses and other indoor planting can affect plant growth and physiological activities, and then play a role in improving plant quality.
Contact Person: Michael Hsu