62.5 Single Fiber, ISO NW16 KF, Graded-Index
Fiber Optic Feedthrough (62.5 micron, Graded-Index, Multimode), mounted on a NW16 KF Flange.Male SMA 905 connectors on each end.
Fiber Optic Feedthrough (62.5 micron, Graded-Index, Multimode), mounted on a NW16 KF Flange.Male SMA 905 connectors on each end.
Fiber Optic Feedthrough (62.5 micron, Graded-Index, Multimode), mounted on a NW40 KF Flange.Male SMA 905 connectors on each end.
2ea. Fiber Optic Feedthrough (62.5 micron, Graded-Index, Multimode), mounted on a NW40 KF Flange. Male SMA 905 connectors on each end.
Vented Fiber Optic Cable coupler used to mate two SMA 905 Fiber Optic cables. Vacuum Service, with vent hole.
Accu-Glass offers fiber optic feedthroughs with 62.5, 100, 200, 400, 600, and 1000 micron core diameters. These feedthroughs are ideally suited for industrial and/or scientific research applications requiring air-to-vacuum fiber optic transitions/connections. Multimode fibers (both Step and Graded Index types) are hermetically sealed into a stainless steel shell, using the latest in glass-ceramic-metal bonding technology. Standard fiber optic feedthroughs are terminated with premium SMA 905 connectors on both the vacuum and air sides. FC and ST connections are also available.
Polyimide buffered optical fiber cable assemblies are offered to meet the rigorous demands of ultrahigh vacuum environments. These optical fibers are of a core-and-cladding composite construction. The core, or the filament that guides the light, consists of a thin strand of high-transmission fused silica. The cladding is an outer layer of doped, lower refractive-index fused silica. This dual-layer design tightly confines light to the fiber's central core, thus delivering the maximum amount of light possible at the fiber's destination. Fiber diameters are closely controlled during the drawing process, allowing fibers to center well in connectors and boast low loss rates.
Graded-index multimode fiber bridges the gap between single mode and step-index multimode fibers, giving up some bandwidth for ease of termination and light launch. It's more economical than single mode fiber and primarily used for data communication (not as useful for power transmission) applications requiring medium run distances (2 to 15 km lengths).