Sterilization, inspection, etc. Flexible surface-emitting UV lamp (mercury-free ultraviolet light) module
Irie Co., Ltd.
This product is registered by Irie Co., Ltd..
About This Product
Overview
■A bendable, surface-emitting, mercury-free, new ultraviolet light source.
・Uses plasma and ultraviolet phosphor
・A wide range of wavelengths can be selected from deep ultraviolet light to visible light.
・Ideal for development and integration in various applications such as sterilization, ozone deodorization, inspection, curing, plant cultivation, phototherapy, etc.
■What is UV-SHiPLA?
・Highly curved surface-emitting device using UV-LAFi technology
・Mercury-free light source with a wide variety of wavelengths using Xe plasma and phosphor
・Wide wavelength selectivity using wavelength control technology
■Luminous Array Film
By using LAFi (Luminous Array Film), in which tube-shaped light-emitting elements are lined up and film-shaped electrode sheets are bonded together, flexible, high-brightness, large-area, energy-saving, and high-value-added light source devices/light source modules are realized.
■Bendable light source with flexibility in size and shape
・The UV-SHiPLA surface light source has two types of flexibility: ``freedom in size and shape'' and ``ability to bend.'' Taking advantage of this feature, it is possible to design and manufacture a custom-shaped light source that matches the object to be incorporated.
- Concentrated irradiation due to the concave surface enables UV irradiation that wraps around the object and does not create shadows.
・By configuring the shape to match the inside of water channels, air conditioning ducts, etc., it is possible to place a light source that efficiently irradiates UV rays without interfering with the flow.
・Because of its film shape, it is easier to integrate into narrow spaces than conventional lamps, increasing the degree of freedom in device design.
■Mercury-free light source using Xe plasma and phosphor
Mechanism of ultraviolet light emission by plasma. Electric discharge is used as a method to change gas into plasma. As shown in the figure below (left), when a strong electric field is applied to a gas from an electrode, the electrons that make up the atoms are attracted by the electric field and separate from the atoms (ionization), allowing them to move through the gas, starting a discharge. In addition, by making it easier for electrons to be emitted from the electrode, the electrons emitted from the electrode are accelerated by the electric field and collide with gas atoms, promoting ionization of the atoms and making it easier to discharge.
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Product
Sterilization, inspection, etc. Flexible surface-emitting UV lamp (mercury-free ultraviolet light) module
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