Request InfoUV Process Supply Inc.The 375-nm Con-Trol-Cure UV-LED Cure-All is available from UV Process Supply Inc. for curing opaque inks. The system uses an array of UV LEDs and has an automatic instant on/off that does not require mechanical shutters. It emits no heat and provides a consistent output lamp life of more than 50,000 h. The company says that its low energy consumption and absence of replacement parts reduce long-term operating costs. Scalable to the user's specifications, the system is available in 375-, 395- and 415-nm linear arrays, and in 390- and 415-nm spot units.See full productRelated content from Photonics MediaWEBINARSPhotonics.com 7/22/2021STANDARDS UPDATE: Vision Standards: An Overview of Global and A3 DevelopmentsStandards play a key role in the vision and imaging industry by ensuring interoperability of components, increasing market size, and shortening the time it takes to get new products to market. As the...Photonics.com 1/18/2018Fiberguide RARe Motheye Fiber: Random Anti-Reflective (RARe) Nanostructures on Optical Fibers as Replacement for AR CoatingsAnti-reflective (AR) coatings are now entering their second century and have remained virtually unchanged throughout their life. As power level and wavelength range requirements continue to increase,...Photonics.com 10/27/2021Fiber Optic Solutions for Medical DevicesSteve Allen provides a brief overview and examples of procedures that continue to push adoption and proliferation of optical fiber-based medical devices. From cosmetic surgery to cutting-edge sensing...Photonics.com 1/9/2023Innovations in Ultrashort-Pulse and RF-Excited CO2 Lasers Expand Materials Processing ApplicationsIndustrial laser materials processing is constantly evolving. Industries as varied as pharmaceutical, consumer electronics, automotive, aerospace, and textiles, among others, have benefited from new...PHOTONICS BUYERS' GUIDE CATEGORIESElectromechanical ShuttersCOMPANIESPhotonics Buyers' GuideSutter Instrument CompanyIn 1977, Dale Flaming, a scientist working at the University of California at San Francisco, was having difficulty reliably producing micropipettes. He developed the first electronically controlled...