![]() ![]() LC Adapters for older meters with a rectangular optical port.FiberQuickMap FQM-100-M Multi Mode Fault Finder Package includes multimode fiber fault locator unit, screw on interchangeable SC adapter, 50 µm SC/LC Multimode Launch Fiber, carrying case, 4-language Quick Reference Guide (manuals in 9 languages available on-line), safety instruction manual, and batteries. Multimode test reference cord (2m) for testing 62.5μm ST terminated fibers (ST/ST) Multimode test reference cord (2m)for testing 62.5μm FC terminated fibers (FC/FC) Multimode test reference cord (2m) for testing 62.5μm LC terminated fibers (LC/LC) Multimode test reference cord (2m) for testing 62.5μm SC terminated fibers (SC/SC) Multimode test reference cord (2m) for testing 50μm ST terminated fibers (ST/ST) Multimode test reference cord (2m)for testing 50μm FC terminated fibers (FC/FC) Multimode test reference cord (2m) for testing 50μm LC terminated fibers (LC/LC) Multimode test reference cord (2m) for testing 50μm SC terminated fibers (SC/SC) ± user-configurable Index of Refraction (IOR) error ± the incident location error.Īccessories for Multimode Fiber QuickMap™ With a backscatter coefficient of -63dB at 850nm using a calibrated -14dB reference.Ĥ. The maximum link loss prior to the incident is -7dBģ. Detects incidents ›10m after the bulkhead connector or any prior incident when the bulkhead reflectance is ‹-35dB and the reflectance of any prior incident is ‹-35dB. Detects incidents ›1m after the bulkhead connector when the bulkhead reflectance is 3 m after an incident when the incident reflectance is.Ģ. Finds and gives the location of an incident that has a reflectance larger than -55dB. Detects incidents ›3m after an incident when the incident reflectance is ‹35dB.ġb. Detects incidents ›2m after the bulkhead connector when the bulkhead reflectance is ‹35dB. Detects the location of an incident that has a reflectance larger than -62dB. Listed by the Canadian Standards Association CSA C22.2 No. If no fiber is attached or if the connector is dirty, the troubleshooter displays 0m or 0ft.Ĭonforms to relevant European Union directivesĬonforms to relevant Australian standards ± (1m + 0.1% x length) for reflective incidents 4 ± (3m + 0.1% x length) for non-reflective incidents 4 Backlight turns off first.ġ.5dB default warning threshold (user-configurable from 0.5dB to 6.1dB in 0.1dB increments) Random, 5Hz to 500Hz, MIL-PRF-28800F CLASS 2Ģ AA alkaline batteries (no battery charger)Īutomatically turns off after 5 minutes if no keys are pressed. Operating relative humidity (without condensation)ĩ5% (10✬ to 35✬) 75% (35✬ to 40✬) uncontrolled ‹ 10✬ +7dB maximum input power.Ġ.70dB default threshold (user-configurable from 0.5dB to 6.1dB in 0.2dB increments)ġ7.5cm H, 7.8cm W, 3.8cm D. Looks for a signal every 3 seconds after the first detection. 35dB default threshold (User selectable: -20dB to -45dB in 5dB incrementsĭetects optical signals from 600 nm to 1050nm and shows ACTIVE LINE if a signal is there. These models have the simplicity of a VFL, and provide distance and power information on high losses, breaks, and the end of the fiber. ![]() Optical Time Domain Reflectometers (OTDR) provide graphical data and analysis along the entire length of a cable, way beyond the reach of a VFL, but they can be expensive and require more time and skill to operate.įiber QuickMap fills the gap between a VFL and an OTDR. They are not very helpful for cable runs more than a few meters, or when the cable is not visible or accessible, or when the laser light can’t penetrate the jacket. ![]() VFLs work well for exposed lengths of fiber near a patch panel by illuminating bad connections and breaks. Locate Faults beyond the range of a Visual Fault Locator (VFL) ![]()
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