The Fiber Quickmap troubleshooting tester also provides distances to failures so location of the problem can be found. PA-ST Screw on ST adapter (not for older meters with rectangular style connector)įluke Networks also offers the following 100 meter multimode launch fibers with other connector types. The Fluke Networks FTS-900 Fiber Quickmap is a fiber troubleshooter featuring test reference cords (SC/SC and SC/LC) and a visual fault locator that quickly locate multiple incidents and problem areas in multimode fiber. PA-FC Screw on FC adapter (not for older meters with rectangular style connector)
PA-LC Screw on LC adapter (not for older meters with rectangular style connector) PA-SC Screw on SC adapter (not for older meters with rectangular style connector) It is possible to modify the output port on the device to another connector type by ordering one of the following adapters: The Fiber QuickMap ships with an SC output port. MMC-62-SCFC Multimode launch cable 62,5 µm SC/FC MMC-62-SCST Multimode launch cable 62,5 µm SC/ST MMC-62-SCLC-M Multimode launch cable 62,5 µm SC/LC MMC-62-SCSC Multimode launch cable 62,5 µm SC/SC MMC-50-SCE2K Multimode launch cable 50 µm SC/E2K MMC-50-SCFC Multimode launch cable 50 µm SC/FC The Fluke Networks Fiber QuickMap is an enterprise fiber troubleshooter that quickly and efficiently locates connections and breaks in multimode fiber. MMC-50-SCST Multimode launch cable 50 µm SC/ST MMC-50-SCLC-M Multimode launch cable 50 µm SC/LC
MMC-50-SCSC Multimode launch cable 50 µm SC/SC
#Fluke networks fiber quickmap Patch#
And no fiber patch cords should be used to transition different connector types.įluke Networks offers the following (100 meter) OTDR launch fibers with for use with the SC connector type: VFLs work well for exposed lengths of fiber near a patch panel by illuminating bad connections and breaks. In other words, if the link is 62,5 micron multimode, do not use a 50 micron multimode launch fiber. Make sure that the OTDR launch fiber used is of the same core diameter and connector type as the fiber link under test. Using a shorter fiber launch cable may hide the first event within the Fiber QuickMap’s dead zone.Īttenuation and event deadzones explained The maximum link loss prior to the incident is <7 dB.In order to get the best results with the Fiber QuickMap, especially visibility into the first event, we recommend the use of a high quality, low loss, and low reflectance fiber launch cable of at least 100 meters with the appropriate connector for the first connection into the link under test. ± (1 m + 0.1 % x length) for reflective incidents1 ± (3 m + 0.1 % x length) for non-reflective incidents2ġm after the bulkhead connector when the bulkhead reflectance is 3 m after an incident when the incident reflectance is 10 m after the bulkhead connector or any prior incident when the bulkhead reflectance is <-35 dB and the reflectance of any prior incident is <-35 dB. Operating relative humidity (without condensation)ĩ5% (10✬ to 35✬) 75% (35✬ to 40✬) uncontrolled 11 dBĭistance accuracy (0 m to 1500 m or 0 ft to 4921 ft) Rugged construction vibration and drop tested to 1 meter.Long battery life, 1,500 tests (typical) from 2 AA alkaline batteries.Optional LC, ST and FT interchangeable adapters are available.Backlighted display turns off automatically Change the Index of Refraction (IOR) to improve fiber length accuracy.Six-second test time-no more blind troubleshooting that can waste hours Connect your fiber and press the Test button. Detects live optical signals before it begins testing.
Find potential sources of high bit error rates caused by reflectance from dirty or poor connections.