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The most versatile, complete light source available with up to three singlemode wavelengths on a single port, or four wavelengths (two multimode and two singlemode) on two ports.
Applications
Link-loss characterization
Fiber identification
Key Features and Benefits
Can transmit with a wavelength-identification digital encrypted protocol so that any compatible unit can automatically use the proper calibration parameters
Autonomy of 120 hours
Instrument identification available in six languages
Highest output power in the industry
Three-year warranty and recommended calibration interval, for dramatically reduced cost of ownership
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Features :
* 8 channels of user-selectable laser source modules
* ±3pm wavelength stability with ±0.003dB power stability
* Customer specified WDM DFB sources covering S, C, and L-bands at up to 20mW per channel
* Internal synchronous modulation to 500kHz
* Fiber optic switch modules available
* GPIB/IEEE488 and RS-232 interfaces
The FOM-7900B is a high-performance fiber-optic test and development platform with eight channels supporting plug-in laser source and fiber optic switch modules. This system provides a cost-effective solution for WDM and CWDM test applications including EDFA, SOA, and fiber optic component characterization.
Front panel plug-in modules are offered at user-specified wavelengths from 1475-1625nm including service channels at 1310, 1480, 1510, and 1625nm. Each channel can be tuned over a 1.7nm range with 0.001nm resolution. These sources can be customized to meet special requirements including fiber optic connector type, PM alignment and fiber, and center wavelength on ITU grid points.
For higher density WDM system requirements, up to 25 additional FOM-7900B mainframes can be linked together for a total of 200 channels, all controlled from a single GPIB address.
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Small, lightweight OTDR-dedicated platform factory-configured to house any EXFO OTDR configuration. Takes EXFO’s world-renowned OTDR technology to the next level of user-friendliness.
Applications
LAN/WAN to long-haul OTDR testing
Key Features and Benefits
Tests up to four wavelengths
The industry’s fastest acquisition times
Multimode and singlemode testing
Shortest dead zones available
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The OBR 4400 takes the industry's first ultra-high resolution OTDR with backscatter-level sensitivity designed for component- and module-level reflectometry to the next level. With a small, easily transportable platform, the capability to "see" reflections out to 2 kilometers with no dead zone, and integrated temperature and strain sensing, the OBR 4400 gives you the ultimate in fiber diagnostics. The OBR 4400 uses swept-wavelength coherent interferometry to measure minute reflections (< 0.0003 parts per billion) in an optical system as a function of length with spatial resolution less than 50 microns. This provides the user with precision reflectometry and unprecedented optical-module inspection and diagnostic capabilities by providing the ability to locate and troubleshoot splices, connectors, fiber bends and breaks, insertion loss points, track polarization, verify PM components and more.
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Now in its fourth generation, the Loom Laser series Thread-Break Detection system uses cutting-edge laser and microprocessor technology to provide protection from thread breaks in any weaving environment.
Thread breaks are detected when the CPU senses small changes in the light received by the photocell (receiver). The system is programmed to differentiate between actual thread breaks and false signals generated, for example, when a dust particle or an insect passes through the beam.
Lasers can be strategically placed at critical points-the whiproll, back shed, front shed, or on the lay-to give complete thread-break coverage.
The advanced capabilities of the LL-2000 Loom Laser can detect threads as small as 30 microns on looms operating between 120 and 600 rpm. At the same time, the system is immune to changes in ambient light, and can withstand vibrations up to 14mm in amplitude at the surface of the receiver sensor.
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The OBR 4400 takes the industry's first ultra-high resolution OTDR with backscatter-level sensitivity designed for component- and module-level reflectometry to the next level. With a small, easily transportable platform, the capability to "see" reflections out to 2 kilometers with no dead zone, and integrated temperature and strain sensing, the OBR 4400 gives you the ultimate in fiber diagnostics. The OBR 4400 uses swept-wavelength coherent interferometry to measure minute reflections (< 0.0003 parts per billion) in an optical system as a function of length with spatial resolution less than 50 microns. This provides the user with precision reflectometry and unprecedented optical-module inspection and diagnostic capabilities by providing the ability to locate and troubleshoot splices, connectors, fiber bends and breaks, insertion loss points, track polarization, verify PM components and more.
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Up to 24 channels of Return Loss Measurement. The high resolution reflectometer measures Return Loss from 10dB to 72dB.
The OP930 supports a CW source mode. For the Return Loss measurement the laser sources are pulsed in the nanosecond region. For certain measurements a continuous modulated (CW) light signal is a required.
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The ultimate platform for network experts. Combines physical, optical, transport and datacom testing in a single box. Perform simultaneous acquisitions and fast data post-processing, and benefit from a scalable range of test applications and field-interchangeable modules.
Key Features and Benefits
Five configurations (two-slot, four-slot, seven-slot, eight-slot and bus protector), providing maximum flexibility for long-haul, metro, DWDM, high-fiber-count, Ethernet, SONET/SDH or DSn/PDH test applications
Pentium-powered, with up to 512 MB memory
Easy-to-read, high-resolution 12.1 inch TFT screen
Windows® operating system
Simultaneous acquisitions and fast data post-processing
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Two FasTesT ports: a three-wavelength singlemode port, including either 1625 nm or 1490 nm, and an optional two-wavelength multimode port, for a total of up to five wavelengths
Visual IL and ORL pass/fail analysis
Compatible with both the FTB-400 and FTB-200 platforms
FTTx ready: allows for the testing of passive optical networks (PONs) at 1310 nm, 1490 nm and 1550 nm, the three wavelengths recommended by the ITU-T (G.983.3) for PONs
Three-year warranty and recommended calibration interval, error-free testing and minimized training time
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Luna Technologies' Optical Backscatter Reflectometer (OBR) delivers unprecedented inspection and diagnostic capabilities for the fiber-optics industry. Luna's state-of-the-art OBR provides isolation of faults and problems well before final test, saving hours in rework and hard dollars in yield loss.
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Insertion Loss and Return Loss measurement for all four FTTX wavelengths. The 'no mandrel' method combined with concurrent dual-wavelength measurement makes this instrument the most efficient tool in FTTX component verification.
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| ... products without technical information |
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The most versatile, complete light source available with up to three singlemode wavelengths on a single port, or four wavelengths (two multimode and two singlemode) on two ports.
Applications
Link-loss characterization
Fiber identification
Key Features and Benefits
Can transmit with a wavelength-identification digital encrypted protocol so that any compatible unit can automatically use the proper calibration parameters
Autonomy of 120 hours
Instrument identification available in six languages
Highest output power in the industry
Three-year warranty and recommended calibration interval, for dramatically reduced cost of ownership
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|
|
|
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Features :
* 8 channels of user-selectable laser source modules
* ±3pm wavelength stability with ±0.003dB power stability
* Customer specified WDM DFB sources covering S, C, and L-bands at up to 20mW per channel
* Internal synchronous modulation to 500kHz
* Fiber optic switch modules available
* GPIB/IEEE488 and RS-232 interfaces
The FOM-7900B is a high-performance fiber-optic test and development platform with eight channels supporting plug-in laser source and fiber optic switch modules. This system provides a cost-effective solution for WDM and CWDM test applications including EDFA, SOA, and fiber optic component characterization.
Front panel plug-in modules are offered at user-specified wavelengths from 1475-1625nm including service channels at 1310, 1480, 1510, and 1625nm. Each channel can be tuned over a 1.7nm range with 0.001nm resolution. These sources can be customized to meet special requirements including fiber optic connector type, PM alignment and fiber, and center wavelength on ITU grid points.
For higher density WDM system requirements, up to 25 additional FOM-7900B mainframes can be linked together for a total of 200 channels, all controlled from a single GPIB address.
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| ... products without technical information |
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