Request InfoHamamatsu CorporationThe S8334 and S8335 Si/GaAs PIN photodiodes from Hamamatsu Corp. are designed for use in Fibre Channel and Gigabit Ethernet optical networks. They offer a dynamic range of -25 to +3 dBm, a data transmission rate of 500 Mb/s, a rise time of 1000 ps and photosensitivity of 3 V/mW. The receivers operate over a temperature range of -20 to +70 °C and, the company says, maintain high performance under extreme weather conditions. The S8334, housed in a TO-18 package, has an active area of 0.4 mm. The S8335 is available in five packages, each with a different connector or mounting style. Both...See full productRelated content from Photonics MediaWEBINARSPhotonics.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 3/7/2019In Vivo Medical Laser Procedures: An OverviewThis webinar, presented by OFS, will provide an overview of current in vivo medical procedures performed using lasers and optical fibers. The presentation will begin with a brief history of...Photonics.com 6/30/2021European Photonics Manufacturing Services Funded by ECThis event is supported by the European initiatives presented and is moderated by EPIC, the European Photonics Industry Consortium. The European Commission is helping companies access the...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...COMPANIESPhotonics Buyers' GuideHamamatsu CorporationHamamatsu Corporation is the North American subsidiary of Hamamatsu Photonics K.K. (Japan), a leading manufacturer of devices for the generation and measurement of infrared, visible, and ultraviolet...