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| OFS Fibers are available Indoor or Outdoor use, or in rugged or harsh environments such as on the factory floor, in aviation, or in the military. We offer most standard constructions, such as simplex, zipcord, multiple fiber, armored, and other specialty configurations. We use various material combinations and layers of ETFE, PVC, Polyurethane, and Polyethylene to create cables to meet the demands of the desired application. Additional cabling options are also available, such as integrated strength members, breakout cords, color coding, and custom jacket printing. OFS is compliant with the European RoHS Directive for cable manufacturing. |
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Fiber optic cables can be made in different lengths with different type of connectors, such as SMA905, ST or FC/PC connectors. The fibers are also available for different wavelength regions, like Deep UV solarization resistant fibers, UV/VIS fibers and VIS/NIR fibers.
We offer different shielding, like Kevlar reinforced PVC sleeving with PTFE inner tubing (standard) or metal shielding with PVC-XY or PTFE inner tubing for higher temperature and more industrial applications.
Depending on the intended wavelength range a UV/VIS (200-800 nm) or a VIS/NIR (350-2000 nm) fiber is used. In the following table replace xx by respectively UV or IR. For deep UV use specify -SR (solarization resistant).
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Possible fiber types:
9 µm, Singlemode LEAF, 50 µm, 62.5 µm or 200 µm other fiber types upon request
Standard lengths:
100, 200, 500, 1000 and 2000 m other lengths available (max. 4000 m per height unit or max. 1000 m for H200 fiber)
Connectors:
FLC, FLX.5, FST, FLSA, FCPC, FSC-CMAX, E-2000TM, FSMA |
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| A new fiber and termination system in the popular 62.5 µm size makes on-site crimp & cleave connectorization possible. These optical fibers are drop-in compatible with other 62.5 configurations and offer superior connector retention and performance--maximum bandwidth with minimal insertion loss. Our 62.5 µm products are rugged, easily terminated, yet still cost-effective. ST or SMA connectors can be directly crimped to the cladding. Additionally, we offer kits containing all the tools necessary to perform terminations in the field and test those connections with an Insertion Loss Test Kit. |
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| OFS offers an entire product line based on its flagship 200 µm HCS Optical Fiber Cables. This popular and versatile multimode fiber employs a rugged hard clad silica which both protects the fiber mechanically and allows it to be quickly and easily terminated using crimp-and-cleave connectors. OFS's 200 µm HCS cables are recommended for use with most industry-standard communications protocols and can be easily connectorized with standard V-Pin, ST, SMA, and F07 connectors. Additionally, we offer kits containing all the tools necessary to perform terminations in the field and test those connections with an Insertion Loss Test Kit. |
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Our fiber optics products meet the requirements of Telecom and Datacom applications at all levels of fiber optic equipment. Our products provide fiber optic storage, protection, transportation and installation. Our fiber optics range provide solutions for space saving, reliability and signal transmission.
Richco's fiber management and protection products have been designed to eliminate the potential hazards such as macro and micro bends resulting from the mishandling of optical fibers during installation, maintenance and upgrade.
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The Business Unit Telecom of BRUGG CABLE can supply all the accessories needed for optical fibre networks as LAN, MAN and WAN systems.
The range of products includes all the material needed for installing indoor and outdoor cables, into 19" racks and cabinets or for fitting them to walls, masts etc.. |
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FCI, a leading supplier of connectors and interconnect systems, has launched FCI Fiber Optics, a product line of fiber optic couplers, splitters, taps, wavelength division multiplexers (WDMs), cable assemblies and adaptors based on proven technology from Canstar'. With this wide range of product offerings, FCI Fiber Optics is able to accommodate applications ranging from data communications for military and commercial aircraft to ignition control on power generators.
The FCI Fiber Optic line of products includes several types of couplers for various design specifications including one-in, many-out couplers; WDMs; and one-in, two-out couplers available as even-split or ratio-split. Even-split couplers include traditional splitters, y-junction couplers and 50:50 couplers, while ratio-split couplers include access and tap couplers. FCI attenuators, or one-in, one-out couplers for attenuating all wavelengths, are also included in the product line.
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| Fischer Connectors offers a wide range of fiber optic connector and cable systems. Rugged, they are specifically engineered to withstand difficult operating conditions (outdoor, submarine, or high pressure applications…). |
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Differents types of connectors:
LX.5
LC
MU
LSH
SC
SC Duplex
FCPC
LSA (DIN)
ST-LEAN
ST-HQ
FSMA
MT-RJ
ODC
FiberGate
SC-RJ IP67
E-2000
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In order to ensure the highest technical performance and to provide the optimum solution for a diversity of applications,
LEMO has developed four types of fibre optic contacts; designated F1, F2, F3, and F4. These contacts are designed to
operate with single fibre, multi fibre, and mixed fibre optical/electrical cable constructions and cater to single and multimode
fibres from 9/125 to 1500 µm diameter.
The choice of fibre optic contacts depends upon the following criteria:
- Cable construction (single fibre, multi fibre, mixed optical/electrical)
- Fibre type (single-mode or multi-mode). |
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This hermaphrodite connector with 12 separate ferrules is designed for extra harsh environmental requirements.
It can be coupled with an identical connector interface or with a receptacle.
Four additional electrical contacts are possible.
Multi mode and single mode
Detachable alignment sleeve body for easy cleaning
Captive protection cap
Additional protection cover possible
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| The LISA wall-mounted distribution boxes suit applications where low space is available. |
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Pasternack's Fiber-optic cables consist of fine strands of optically pure glass and are designed carry digital information safely over long distances for RF & Microwave applications. Standard cable lengths are 1, 2, 3, 5 meters in length (62.5/125 Multi Mode and 9/125 Single Mode).
Custom-length cable assemblies are available upon request, call or email us today! |
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A patch cord or fiber jumper is an optical cable, used to connect ("patch-in") one electronic or optical device to another for signal routing. Devices of different types (i.e.: a switch connected to a computer, or switch to router)
are connected with patch cords. Patch cords are usually produced in many different colors so as to be easily distinguishable, and are relatively short, perhaps no longer than two meters. Patch cords can be as short as 3 inches or 8cm, to connect stacked components, or route signals through a patch bay or as much as twenty feet or 6m or more in length for snake cables. As length increases, cables are usually thicker, and/or made with more shielding, to prevent signal loss (attenuation) and the introduction of unwanted radio frequencies and hum (electromagnetic interference). Patch cords also come in hybrid varieties with one type of connector on one end and another type of connector on the other. Jumpers are used in the same manner as patch cords, to connect end devices or network hardware to the structured cabling system.
Fiber patch cords come in either single mode or multimode and should be selected to match the structured cabling system. The only exception to this is mode conditioning patch cords (also known as mode conditioning fiber jumpers) that are required when transmitting gigabit signals over 200m on 62.5 micron multimode fiber. |
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Here you will find the right cable type for every application and for every installation field, e.g. patch distributor, raised floor or Telecom MAN/WAN street cabinets and industrial machine connection as well.
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New Tighter Tolerances!Step Index
Characteristics
Numerical Aperture: 0.22 ± 0.02
Full Acceptance Cone: 25.4 degrees
UV-Vis-NIR Transmission, 180nm to 1,150nm
Superior Radiation Resistant
High Laser Damage Threshold
Sterilizable*
Bio-compatible Materials – USP Class VI*
High -OH Silica Core, Doped Silica Clad
Polyimide Buffer Standard; Silicone, Acrylate,
Fluoropolymer, Aluminum & dual buffers also available
Polyimide Concentricity ± 3µm
Sizes for Bundling
Tighter Tolerances Available
Temperature: Operating –65şC to +300şC
Intermittent, up to 400şC
Proof Tested to 100kpsi |
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| When looking for a high quality fiber with superior transmission and a numerical aperture (N.A.) of 0.22 for efficient light coupling, the Superguide™ SFS is the fiber of choice. The Superguide™ fiber is drawn from preforms manufactured by the Plasma Outside Deposition (POD) process. Rods of extremely pure synthetic fused silica are coated with fluorine doped silica layers to obtain preforms with step-like refractive index profiles. Plasma torches prepare the reaction compounds from SiCl4, O2, and a fluorine containing gas. Strong thermal gradients combined with the temperature plasma lead to chemical deposition conditions, which allow very high fluorine concentrations to be incorporated in the fused silica network. Refractive index differences of 0.27 corresponding to numerical apertures in excess of 0.28 have been realized with undoped core rods. |
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| Silica optical fibers, despite their high strength, require coatings to protect and maintain their strength during installation and operation when high temperatures, abrasion, bending, and other stresses can cause fiber fatigue. OFS offers both single-mode and multimode optical fibers with protective coating layers applied directly to the glass during the fiber draw process. |
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HOLLOW SILICA Waveguide (HSW™)
- IR Applications
Characteristics
Wavelength Range 2.9 µm past 10.6µm
High Laser Damage Threshold: > 1000W @ 10.6µm
Strong and Flexible
Non-Toxic: Sterilizable*
Low Insertion Loss
No End Reflection
Transmission Optimized for CO2 or Er:YAG wavelengths
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When looking for a high quality fiber with superior transmission and a numerical aperture (N.A.) of 0.22 for efficient light coupling, the Anhydroguide™ AFS is the fiber of choice. The Anhydroguide™ fiber is drawn from
preforms manufactured by the Plasma Outside Deposition (POD) process. Rods of extremely pure synthetic fused silica are coated with fluorine doped silica layers to obtain preforms with step-like refractive index profiles. Plasma
torches prepare the reaction compounds from SiCl4, O2, and a fluorine containing gas. Strong thermal gradients combined with the temperature plasma lead to chemical deposition conditions, which allow very high fluorine
concentrations to be incorporated in the fused silica network. Refractive index differences of 0.27 corresponding to numerical apertures in excess of 0.28 have been realized with undoped core rods. |
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Fiber optics cables and connectors
