Showing results: 406 - 420 of 846 items found.
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Arden Photonics LTD
The ModCon Mode Controller is designed to ensure that whatever source you use to test the loss and bandwidth of your multimode optical fiber network, LED, Laser, OTDR or white light, you launch the same distribution of modes into the fiber. As a result you can eliminate the variations due to the widely different modal characteristics of the sources commonly used in fiber optic measurements and networks.
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Newport Electronics
These New Focus high speed fiber-optic receivers offer bandwidths up to 38 GHz for receiving fiber optic data while delivering the lowest noise and cleanest responses possible.
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C9394 Series -
Smiths Interconnect
Smiths Interconnect's C9394 series is a high density, line removable module (LRM) connector available in 132 through 594 positions, that can be configured to include fiber optic and coax options.
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The Rotation Link SAS
Slip Rings can be fitted on tank turrets and military vehicles for frontline operations, allowing power, Ethernet, video and CAN bus signals to be transmitted on the battlefield using fiber optic channels.
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TrayPXIe -
Quantifi Photonics Inc.
The TrayPXIe is an accessory tray that stores your fragile passive fiber optic components such as splitters, connector adaptor patchcords, WDM couplers, and isolators in one handy module in the PXI chassis.
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Aguard Electronics Co., Ltd
Fiber optic transmission systems all use data links that work similar to the diagram shown above. Each fiber link consists of a transmitter on one end of a fiber and a receiver on the other end. Most systems operate by transmitting in one direction on one fiber and in the reverse direction on another fiber for full duplex operation. It's possible to transmit both directions on one fiber but it requires couplers to do so and fiber is less expensive than couplers. A FTTH passive optical network (PON) is one of the only systems using bidirectional transmission over a single fiber because its network architecture is based around couplers already.
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M2 Optics, Inc.
Dispersion compensating fiber from M2 Optics is used for correcting dispersion effects created over distances within G.652 single mode optical fibers. Offered in a 19" chassis for rack or benchtop use, these high quality testing platforms are easy to work with and provide consistent, repeatable results.
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Teledyne Marine Cable Solutions
Shielding Types• Braided I Served I Spiral• Foil & Hybrid• Vapor Barriers• Copper & Alloys• Conductive & Static Dissipative Tapes• Conductive Fabrics• Tensile Members• RFI & EMI Tapes & Braids (Serveor Interwoven)• Utilizing Flat & Round Copper• Stainless Steel• Bronze• Aramid Fibers & Textile, amongothersConstruction• Multi-conductor, shielded pairs, pairs with steel tubed fiber or copper conductors with fiber optics, coaxial conductors & aramid strength fibers
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Smiths Interconnect
Our quadrax, twinax, spring probe, coax, triax and fiber optic contacts can be sold seperately or configured into any of our standard connector shells sizes as well as cable assemblies and harnesses.
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OBR 6200 Series -
Luna Innovations Inc.
The Luna OBR 6225 and OBR 6235 are portable and rugged ultra-high resolution reflectometers with backscatter-level sensitivity for testing fiber optic networks deployed in aerospace, naval, data center and industrial applications.
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SUN-FSW-1x1 -
Guilin GLsun Science and Tech Group Co., LTD
GLSUN 1×1 fiber optic switch -Features·Low Insertion Loss·High Stability, High Reliability·Low Crosstalk·Wide Wavelength Range·Epoxy-free on Optical Path·Latching and Non-latchingGLSUN 1×1 fiber optic switch -Applications·System Monitoring·OADM·R&D in Laboratory·MAN (Metropolitan Area Network)·Network Security and MonitoringGLSUN 1×1 fiber optic switch - SpecificationsParameters Unit SUN-FSW-1×1Wavelength Range nm 850±40 / 1300±40 1260 ~ 1650Test Wavelength nm 850 / 1300 1310 / 1550Insertion Loss 1,2 dB Typ: 0.5 Max: 0.8 Typ: 0.4 Max: 0.6Return Loss 1, 2 dB MM ≥ 30 SM ≥ 50Crosstalk 1 dB MM ≥ 65 SM ≥ 70PDL dB ≤0.05WDL dB ≤0.25Repeatability dB ≤±0.02Operating Voltage V 3.0 or 5.0Durability Cycles ≥ 10 MillionSwitching Time ms ≤8Optical Power mW ≤500Operating Temperature ℃ -20 ~ +70Storage Temperature ℃ -40 ~ +85Relative Humidity % 5 ~ 95Weight g 14Dimension mm (L)27.0×(W)12.6×(H)8.2 ±0.2Note: 1 Within operating temperature and SOP.2 Excluding Connectors.
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Amphenol Fiber Systems International
Physical Contact (PC) connections are characterized by the physical mating of two optical fibers. Precision ceramic ferrules are typically utilized for PC connections. A PC connection is accomplished by terminating the optical fiber into a precision ceramic ferrule. Epoxy is used to affix the fiber into the ferrule. The tip of the ceramic ferrule is polished in a precise manner to ensure that light enters and exits at a known trajectory with little scattering or optical loss. Polishing the terminated ceramic ferrule is a critical process in Physical Contact fiber optic connectors.
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TF916 -
Yamasaki Optical Technology
The Yamasaki TF916 Optical Fiber Identifier is an essential part of any professional fiber optic toolkit. By inserting fiber into the Yamasaki TF916 Optical Fiber Identifier head, the Yamasaki TF916 Optical Fiber Identifier can be used to identify traffic, traffic direction, frequency and optical power within any singlemode optical fiber. The sleek black outer housing is comprised of an anodized aluminum to make it lightweight and tough. Also included with the Yamasaki TF916 Optical Fiber Identifier are four adaptor heads that are specifically designed to suit various optical fiber types with minimal bend loss. The easy to read ultra-bright LED display and audible tone make operation easier and can save you valuable time in the field.
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Appointech, Inc.
The benefits and overall savings on a single strand (simplex) versusdual strand (duplex) fiber implementation can be considerable.Considerations include not only the cost of fiber optic cabling itself,but also the labor and material involved in terminating the endpoints,simplex versus duplex patch cords, cross-connect rack space, reducedpoints of failure, and other direct and indirect costs. This technologycan also defer the need to install new fiber to support unexpectedgrowth requirements.