Showing results: 706 - 720 of 1836 items found.
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Shanghai Baudcom Communication Device Co.,Ltd.
Visual Fault Locator series Visual Fault Locator uses the DFB-LD as the emitting component. Driven by constant current source, the indicator can emit stable red laser.The product can be used to inspect fiber failure when they connect with optical interface and be inserted into single mode or multi mode optical fiber.It is indispensable tool in fiber project constructing, fiber net-work maintaining, optical component manufacture and research.
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Optical Wavelength Laboratories
OWL fiber optic visual fault locators (VFL) are specially designed to couple a maximum of optical energy into multimode and singlemode optical fibers by using a bright red fiber optic laser. Breaks, microbends, and other anomalies in optical fibers and connectors cause the intense bright red laser light to escape, thus revealing the presence of a fault. In addition to visual fault location, OWL VFLs can be used as a visual optical fiber identifier. A visual fiber optic identifier eliminates much of the guesswork during testing by identifying the fiber under test.
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E50 -
Sciences et Techniques Industrielles de la Lumière
E50 series is part of the STIL ChromaPoint detectors.All the optical fibers are passive components, graduated index silica fibers with a 50µm core, an E2000/APC connector for the connection with STIL controller and an FC/APC connector for the connection with STIL optical sensor head.
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HDAS -
Aragón Photonics Labs S.L.
HDAS (High-Fidelity Distributed Acoustic Sensor) starts the next chapter for Fiber Optic Sensing. With its patented linear measurement technology it provides unrivaled signal quality along all the measured fiber length and magnitude measurement capabilities.
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CA3004 -
UC Instruments, Corp.
SANA 2 fiber endface interferometer is a type of cost-efficient non-contact test instrument with excellent performance. It is able to measure the fiber endface geometry parameters such as radius of curvature, apex offset, fbre height and polishing angle of APC connector.
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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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Wuhan Sunma Technology Co., Ltd.
With the feature of high input power, high output power, and medium optical gain, the booster amplifier operates at the transmission side of the link to amplify aggregated optical input power for reach extension.SunmaFiber booster amplifier is a low-noise, gain-flattened C-band optical erbium doped fiber amplifier (EDFA) designed to cost-effectively extend the optical link power budget for building long distance DWDM solutions.SunmaFiber also offers switches, routers and fiber converters including 10/100M, 10/100/1000M and 10G fiber converters, SFP fiber converters, manageable/unmanageable fiber converters, OEO fiber converters, POE fiber converters, fiber converter cards, and fiber converter chassis; transmitting distance from 2km(MM) to 150km(SM) with SC or LC or FC connectors.
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AFL
Fiber optic cables designed to maximize your data center.
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OTDR X60 -
Shinho Company
Palm OTDR X-60 is a very reliable and good performance OTDR, it can measure the optical fiber length, transmission attenuation of optical fiber, attenuation of splice, and failure location, etc accurately. It is widely used in the maintenance, construction and monitoring of cable line.
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Amphenol Fiber Systems International
Amphenol Fiber Systems International (AFSI) offers a complete suite of passive fiber optic adapters to facilitate conversion from one network-based connector type to another. The small size of these adapters eliminates the need for bulky and expensive adapter cables.
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JW3111 -
Shanghai Joinwit optoelectronic Tech,co.,Ltd
JW3111 optical light source is a handheld optical light source, newly released in 2007. It can provide 1 to 6 wavelengths output to satisfy specific requirements including the 650nm visible light source and the 1310/1550nm wavelengths for single mode fiber or the 850/1300nm wavelengths for multimode fiber, as well as other wavelengths according to customer’s needs. Together with the JW3211 optical power meter, it is a perfect solution for fiber optic network applications.
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KI23424OL-INGAAS-APC -
Kingfisher International
A Quad Two-Way Optical Loss Test set / OLTS fiber tester that's perfect for medium to ultra high fiber count loss, length & optical return loss testing applications on both multimode and single mode fiber with APC connectors on both ports at 850 / 1330nm 1310/1550 nm. A pair of these compact SM & MM instruments set new standards of productivity, ultra-stable source accuracy and ease of use.
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OPTOKON a.s.
OPTOKON manufactures an extensive range of reliable and field-proven fiber optic components designed to increase system capacity. To be cost-effective, these compact solutions assist service providers, dark fiber developers, and enterprises to increase fiber capacity while keeping growth flexibility and high ROI. By providing the necessary platforms for a smooth and effective transition into optical networks they fulfill high bandwidth needs while cutting implementation, upkeep, and growth costs.
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DORC's ZX-1 -
Direct Optical Research Company
Used primarily to measure multi fiber (MT/MPO and MT-RJ) connectors, DORC's fourth generation "ZX-1 mini Array+" is the result of 18 years of hardware and software product development. Although optimized for mutifiber connectors, the ZX-1 mini Array plus also does an excellent job of measuring single fiber PC and APC connectors. DORC's patented design is based on a variant of the Michelson configuration, and provides BOTH 2D and 3D high resolution images of the sample under test in approximately 45 seconds for multi fiber connectors and just 3-4 seconds for single fiber connectors - from the time the connector is inserted.