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Type | Power consumption | Size | Base | Wavelength | Irradiance @ 1m | av.life |
UVCH4D15X135-G5 | 4W | 15*135mm | G5 | 253.7nm | 8uW/cm2 | 8000h |
UVCH6D15X212-G5 | 6W | 15*212mm | G5 | 253.7nm | 16uW/cm2 | 8000h |
UVCH8D15X288-G5 | 8W | 15*288mm | G5 | 253.7nm | 22uW/cm2 | 8000h |
UVCH10D15X331-G5 | 10W | 15*331mm | G5 | 253.7nm | 28uW/cm2 | 8000h |
UVCH15D15X437-G5 | 15W | 15*437mm | G5 | 253.7nm | 40uW/cm2 | 8000h |
UVCH20D15X589-G5 | 20W | 15*589mm | G5 | 253.7nm | 70uW/cm2 | 8000h |
UVCH30D15X894-G5 | 30W | 15*894mm | G5 | 253.7nm | 100uW/cm2 | 8000h |
UVCH40D15X1198-G5 | 40W | 15*1198mm | G5 | 253.7nm | 135uW/cm2 | 8000h |
Type | Power consumption | Size | Base | Wavelength | Irradiance @ 1m | av.life |
UVCH4D15X135-G5 | 4W | 15*135mm | G5 | 253.7nm | 8uW/cm2 | 8000h |
UVCH6D15X212-G5 | 6W | 15*212mm | G5 | 253.7nm | 16uW/cm2 | 8000h |
UVCH8D15X288-G5 | 8W | 15*288mm | G5 | 253.7nm | 22uW/cm2 | 8000h |
UVCH10D15X331-G5 | 10W | 15*331mm | G5 | 253.7nm | 28uW/cm2 | 8000h |
UVCH15D15X437-G5 | 15W | 15*437mm | G5 | 253.7nm | 40uW/cm2 | 8000h |
UVCH20D15X589-G5 | 20W | 15*589mm | G5 | 253.7nm | 70uW/cm2 | 8000h |
UVCH30D15X894-G5 | 30W | 15*894mm | G5 | 253.7nm | 100uW/cm2 | 8000h |
UVCH40D15X1198-G5 | 40W | 15*1198mm | G5 | 253.7nm | 135uW/cm2 | 8000h |
UVCH4D15x135-G5 A3 specification.pdf
UVCH6D15x212-G5 A3 specification.pdf
UVCH8D15x288-G5 A1 specification.pdf
UVCH10D15x331-G5 A0 specification.pdf
UVCH15D15x437-G5 A0 specification.pdf
UVCH20D15x589-G5 A0 specification.pdf
Q What is germicidal UVC? A Germicidal UV (GUV) refers to using ultraviolet radiant energy to inactivate bacteria, mold spores, fungi or viruses. Wavelengths in the photobiological ultraviolet spectral band known as the “UV-C,” from 200 to 280 nanometers (nm), have been shown to be the most effective for disinfection, although longer, less energetic UV can also disinfect if applied in much greater doses. |
Q Can UV-C kill viruses as well as bacteria? A Yes, UV-C kills living bacteria and inactivate viruses. It can inactivate the SARS-CoV-2 virus, responsible for COVID-19 if illuminated by UV-C at the effective dose level |
Q What is the applications for UV light? A The UV lamp can be used in air, surface and water disinfection. |
Q Do we need a ballast for UV light? A Yes, a ballast is needed. the ballast provides a high voltage charge to ‘strike’ or ‘ionize’ the mercury. Then, once the mercury is ionized, the ballast reduces the voltage and amperage required to keep the mercury ionized and emit a stable stream of UV light. |
Q What is germicidal UVC? A Germicidal UV (GUV) refers to using ultraviolet radiant energy to inactivate bacteria, mold spores, fungi or viruses. Wavelengths in the photobiological ultraviolet spectral band known as the “UV-C,” from 200 to 280 nanometers (nm), have been shown to be the most effective for disinfection, although longer, less energetic UV can also disinfect if applied in much greater doses. |
Q Can UV-C kill viruses as well as bacteria? A Yes, UV-C kills living bacteria and inactivate viruses. It can inactivate the SARS-CoV-2 virus, responsible for COVID-19 if illuminated by UV-C at the effective dose level |
Q What is the applications for UV light? A The UV lamp can be used in air, surface and water disinfection. |
Q Do we need a ballast for UV light? A Yes, a ballast is needed. the ballast provides a high voltage charge to ‘strike’ or ‘ionize’ the mercury. Then, once the mercury is ionized, the ballast reduces the voltage and amperage required to keep the mercury ionized and emit a stable stream of UV light. |