Hospitals that incorporate UV light technology to sterilize rooms in addition to their regular cleaning routines will provide many benefits to patients, staff and to the hospital. Hospital acquired infections are more common than many people realize with about 1 in 25 people contracting an infection due to a hospital stay. This can be devastating for the patient and lead to longer hospital stays.
UVC radiation is proven to effectively kill almost all forms of harmful pathogens including superbugs like Methicillin-resistant Staphylococcus aureus (MRSA) or vancomycin-resistant enterococci (VRE). UVC robots are even shown to effectively kill these resistant superbugs when in the line of sight and also when the virus is hiding behind objects at a rate of 99.9%.
The success of UVC robots depends entirely on the quality of the UVC sterilization lamps on the unit. Using high quality UVC lamps is key to realizing maximum benefit and germ killing effectiveness.
LightSources: Global Source for High-Tech UVC Germicidal Lamps
LightSources and LightTech are recognized worldwide as a valuable supplier in the UVC germicidal lamp industry. We support OEMs of all sizes with high-tech UVC lamps in various types and configurations to meet any germicidal need. Our lighting engineers develop prototypes and custom phosphor blends to provide the most effective and cost efficient sterilization solution.
Our UV sterilization lamps include:
- Low Pressure Mercury Lamps – 7 various lamp types include standard and high-output, compact and soft glass lamps
- Low Pressure Amalgam Lamps – our amalgam germicidal lamps include spot and pellet amalgam with proprietary technology that outlasts and outperforms comparable lamp types
- Medium Pressure Ultraviolet Lamps (MPUV) – includes a wide variation of MPUV lamps ranging from 100 wpi to 700 wpi
- Electronic Ballasts – lightweight, high power, high efficiency and custom options available
- Quartz Sleeves – open ended or domed type quartz protect lamps from leakage, breakage and temperature fluctuations without sacrificing performance
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