The proprietary UV LED curing technology of Zhaofang Intelligent Technology Co., Ltd. uses closely integrated high-intensity light-emitting semiconductor devices. Compared with other LED UV curing technologies, UV arrays can produce more significant high intensity light. MJ's solution adopts proprietary packaging, optical and thermal design to provide the highest UV energy, first-class performance and products that have been tested in the field for a long time.
Who is Zhaofang Intelligent Technology Co., Ltd?
China Zhaofang Intelligent Technology Co., Ltd. is a global leader in providing UV LED solutions for commercial and industrial applications. Zhaofang's products provide the highest UV energy, first-class performance and real reliability for UV LED curing of inks, coatings and adhesives.
What are UV LEDs?
The ultraviolet (UV) LED is the ultraviolet light emitting diode. UV LED is an electronic light source with electromagnetic radiation. The wavelength of electromagnetic radiation is shorter than visible light, but longer than x-ray.
What is UV curing?
UV curing is the polymerization of UV sensitive materials, rather than drying by solvent evaporation.
What is Semiconductor Optical Matrix (SLM) technology?
SLM is a unique UV light production technology of Zhaofang. Forty years ago, the mercury arc lamp was the only UV light source that could be used to start the UV curing process. Although new bulb light sources (such as excimer bulbs and microwave sources) have been introduced, the basic technology is still the same. Zhaofang Intelligent Technology Co., Ltd. has developed a "bulb less" semiconductor optical matrix (SLM) technology, which can produce UV light for curing applications. The future development trend of high-intensity UV technology is small, cold and clean, and there is no need to replace bulbs.
Mega square semiconductor optical matrix (SLM) technology combines densely arranged light-emitting semiconductor devices with micro optics and advanced thermal technology into a cost-effective MOEMS (micro electromechanical system) package. Thus, a high-intensity UV light system can be formed, which can provide efficient, scalable, safe, long life, and environmentally friendly substitutes for traditional UV light sources.
What is an arc lamp?
Arc lamp is a general term for a type of lamp that emits light through an arc. Arc lamps are also called discharge lamps, or arc discharge lamps. This type of lamp is usually named after the gas in the bulb; Including neon lamp, argon lamp, xenon lamp, krypton lamp, sodium lamp, metal halide lamp and mercury lamp. The common fluorescent lamp is actually a low voltage mercury arc lamp.
What application market does Zhaofang Intelligent Technology Company support?
The UV curing products of Zhaofang Intelligent Technology Co., Ltd. are currently used in the production and application of UV curing of printing, coatings and adhesives. In addition to printing, coating and adhesive, Mega Square's technology has been strongly used in curing applications of electronic circuits.
How does SLM technology differ from other UV LED solutions available on the market?
The proprietary semiconductor optical matrix (SLM) technology of trillion square intelligent technology is a breakthrough in the application of high-power lamps. It uses closely integrated high-intensity light-emitting semiconductor devices. Compared with other LED UV curing technologies, UV SLM arrays can produce significantly higher intensity light. The light emitted by traditional UV LEDs is limited by the design of separate packaging. Mega Square's SLM technology uses proprietary packaging, optical and thermal designs to optimize output.
What is the difference between a traditional UV lamp and a UV LED light source?
Conventional arc lamps use arcs in mercury vapor to activate atoms, which then emit photons as they decay. Microwave lamps activate gases by microwave radiation. Xenon lamps use xenon (mercury free), but can only "flash". When voltage is applied, UV LED semiconductor (UV LED) will emit a beam of light with narrow bandwidth where the doped semiconductor holes combine with negative electrons.