Showing results: 316 - 330 of 1842 items found.
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Fiber Lab MPO -
M2 Optics, Inc.
With data centers and other high-speed networks using multimode optical fibers for short distance 100G applications, Fiber Lab MPO is the first solution to provide an efficient approach for
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Field Fiber Series -
Multidyne
It’s a tough world out there. Whether onboard a truck, inside a sports venue or outside in the open air, our customers consistently work in harsh, high-pressure production environments. The rigors of long-distance road transport and inclement weather will not excuse failure during live sports, events and broadcast news production. They also must contend with signal counts and connectivity requirements that change with each event. MultiDyne is trusted worldwide for durable, flexible, battery-powered field fiber systems that users can safely transport between events and confidently deploy with broadcast quality signal I/O. With solutions for productions of any scale, including ultra-compact throwdown devices, rackmount units and fully configurable, high-density portable systems, MultiDyne’s field fiber solutions optimize reliability for any short-haul and long-distance field application.
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VI Control Systems Ltd.
To be used with 1000 micron plastic fiber optic cable. Fiber distance should be limited to 40 meters unless special low-loss fiber is used. These units can be used as repeaters to go greater distances.
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Torontech Group
Optical fiber consists of a core and a cladding layer, selected for total internal reflection due to the difference in the refractive index between the two. In practical fibers, the cladding is usually coated with a layer of acrylate polymer or polyimide. This coating protects the fiber from damage but does not contribute to its optical waveguide properties. Individual coated fibers then have a tough resin buffer layer and/or core tube(s) extruded around them to form the cable core. Several layers of protective sheathing, depending on the application, are added to form the cable. Rigid fiber assemblies sometimes put light-absorbing ("dark") glass between the fibers, to prevent light that leaks out of one fiber from entering another. This reduces cross-talk between the fibers, or reduces flare in fiber bundle imaging applications Optical fibers are very strong, but the strength is drastically reduced by unavoidable microscopic surface flaws inherent in the manufacturing process. The initial fiber strength, as well as its change with time, must be considered relative to the stress imposed on the fiber during handling, cabling, and installation for a given set of environmental conditions. There are three basic scenarios that can lead to strength degradation and failure by inducing flaw growth: dynamic fatigue, static fatigues, and zero-stress aging.
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FOMA -
Radiantech, Inc.
FOMA (Fiber Optical Monitoring Alarm System) is integrated RTU (Remote Test Unit) 、Center Monitoring Server and its management software to achieve integrated operation、remote management、unattended monitor、periodic fiber scan、predictive analysis and support the instant fiber with status information and alarm warning, accurate of long-term fiber data record.
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PON FOMA -
Radiantech, Inc.
PON FOMA ( PON Fiber Optical Monitoring Alarm System) is integrated RTU ( Remote Test Unit )、Center Monitoring Server and its management software to be integrated operation、remote control、periodic fiber scan、predictive analysis and support the instant fiber with status information and alarm warning, accurate of long-term fiber data record, fiber analysis and management. RTU monitoring station is embedded Linux system which is with the advantage of high security, stability, efficiency.
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DCM-G.652-C-Fxx -
Hangzhou Huatai Optic Tech. Co., Ltd.
Huatai and DCM-G.652-C-Fxx dispersion compensation fiber module, is negative dispersion compensation based on optical fiber technology, can effectively compensate for G.652 standard single-mode fiber transmission band of 1525 ~ 1565nm dispersion and dispersion slope characteristic.
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CommFront Communications
Our advanced, rugged, industrial-grade, Fast and Gigabit Ethernet to multi-drop fiber optic converters are designed to cover large areas. These converters support up to 255 fiber nodes, and each fiber node can extend the Fast and Gigabit Ethernet data up to 100 miles or 160 km. Depending on the site situation, these multi-drop fiber optic converters can be configured as a daisy-chain or a self-healing redundant ring fiber network. When configured as a ring fiber network, the built-in self-healing feature allows the Ethernet data to be transmitted clockwise or counterclockwise; therefore, failure of any individual converter will not affect other devices located on the same fiber ring, making the entire Ethernet network more robust and reliable. These Fast and Gigabit Ethernet to multi-drop fiber optic converters have been designed for harsh industrial environments and withstand a wide temperature of -40°F to 185°F (-40°C to 85°C), and they come with the options multi-mode and single-mode, and ST, SC, FC, and SFP connectors.
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HFA5000 -
Hangzhou Huatai Optic Tech. Co., Ltd.
1. Erbium-doped Fiber Amplifier, due to multiple cascades and the accumulation of noise caused by spontaneous emission, will reduce the system CNR greatly and thus it will limit the transmission capacity and distance of the system. Raman Fiber Amplifier (RFA) is a newly designed fiber amplifier based on Stimulated Raman Scattering (SRS) effect. It is considered as the core technology of new generation DWDM fiber over-long communication. Compared with Erbium-Doped Fiber Amplifier, Raman amplifier has the advantage of low Noise Figure (NF), wider gain bandwidth, flexible gain spectral region and stable temperature. It is the only device that can operate in 1300~1600nm.