Achieving high illuminance uniformity and temporal stability.
The "FUV-300" is a UV irradiation device developed for the curing process of UV-curable adhesives. It features simple operability with a start button and timer settings, enabling stable UV irradiation work that is less dependent on the operator's skill level. Additionally, it takes safety into consideration by incorporating a door with an electromagnetic lock mechanism, an emergency stop switch, and a leakage breaker. This supports safety assurance and improves work quality during the UV irradiation process.
Inquire About This Product
basic information
Light Source: LED (Peak wavelength 365nm ±8nm) Effective Irradiation Area: 300mm × 300mm Radiant Intensity: Max 30mW/cm² at an irradiation distance of 50mm Irradiation Time: 1 to 3600 seconds Input Voltage: AC200V (+10% / -15%) 50/60Hz Main Unit Dimensions: H875×W375×D584mm (excluding protrusions) Weight: Approximately 60kg
Price range
Delivery Time
Applications/Examples of results
- Fixing of electronic components and precision parts - Adhesive curing of resin parts - UV irradiation for prototyping and research purposes
catalog(1)
Download All Catalogs
News about this product(1)
Company information
Shin-ei Electronic Measuring Instruments is a measuring instrument manufacturer established in 1978. Since its founding, we have upheld the motto of "Contributing to society through measurement technology" and have developed and sold various measuring instruments, including inspection devices for mobile phones, solar module inspection devices, battery testers, camera module inspection devices, and software automated verification evaluation devices. We will continue to refine the technologies we have built up so far, adapt to the times, and provide products that maximize value and delight our customers. Looking to the future, we aim to contribute to the realization of "GX" by leveraging our expertise in new energy businesses, focusing on solar power, batteries, and monitoring technologies that we have cultivated thus far.
