diff.Īnother term that complements the UVC is UVGI (Ultraviolet Germicidal Irradiation). Ultraviolet (UV) disinfection can help fight dangerous pathogens, such as E. They can be created to accept wavelength input and output photons in the UV-C range, which can be utilised to prevent bacterial replication.
LEDs are semiconductor devices that are constructed from numerous layers of substrate materials. This type of light helps organisations minimise the spread of superbugs, which linger in patient rooms and lead to new infections. What are UVC LEDs?īesides the general lighting that is important for medical personnel’s working conditions, the lighting we will be focusing on in this article is UV light.
UVC WAVELENGTH DRIVERS
Some of our supplier partners are brands like OSRAM or Intelligent LED Solutions that are drivers of innovation in the semiconductor sectors, strive towards sustainability and ‘shape the future of light’. One solution is Ultraviolet-C Light-emitting diodes (UVC LEDs) that destroy dangerous pathogens in water, surface and air.Īt Distrelec, it is important that the equipment we distribute is of the highest quality and safety, especially when it’s used in hazardous workplaces. Therefore, there are constant improvements in the healthcare industry to provide a high-quality facility performance and also reduce energy and maintenance costs. Along with improving the air quality and ventilation, ultraviolet UVC lighting gained more popularity as medical facilities started seeking more non-disposable, non-chemical disinfection options.Įnsuring a clean and safe hospital environment is crucial for the safety of patients and the medical workforce. The most common substances added to our lamps are iron (Fe) and gallium (Ga).In today’s world, where viruses threaten society, reducing the risk of coming into contact with harmful pathogens has become key. Once your chosen wavelength is agreed upon, our experts may recommend a UV-C lamp imbued with additional metal halides to achieve the optimal output. With a broad range of applications occupying different areas of the ultraviolet spectrum, it is possible to enhance certain wavelengths with the introduction of a doping element. Synthetic Quartz – Implemented to achieve the highest possible UV-C output, UV lamps fitted with synthetic quartz can reach 60% transmission at approximately 160 nm.Reaches ≥80% transmission down to approximately 210 nm. Standard Quartz – Produces ozone, useful for surface activation but requires an exhaust system.If required, our engineers can even design a tailor-made connection for you. These include our rectangular pin plug for pinch sealed lamps, and axially mounted contact pins. Alongside our standard and axially mounted ceramic connections featuring flying leads, Ushio produces various types of plug-in and axially mounted contact pins which can be selected to ensure the optimal power feed for your lamp. Connectionsĭepending on the power rating and size of the machine housing your UV emitter, you may select from our range of connections to suit all situations. The majority of Ushio lamp bases are formed from ceramic due to its excellent corrosion resistance although metal bases are available should they fit your requirements. We offer a large variety of common lamp bases, however Ushio’s UV technical development team is on standby to design bases on request for seamless integration into your existing or newly designed systems. Endless possibilities for customised base design.
UVC WAVELENGTH FULL
Reaches full power in 3 – 5 seconds (up to 1 kW).Plug-and-play for super-fast lamp exchange.
UVC WAVELENGTH ISO
High radiation intensity across the desired spectral range.Care222® filtered 222 nm far UV-C disinfection lamps.Soraa® Retrofit LED Lamps & Ushio LUXIA Electronic Transformers.
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