Otdr Launch Cable Purpose
The launch cable sometimes also called a pulse suppressor allows the otdr to settle down after the test pulse is sent into the fiber and provides a reference connector for the first connector on the cable under test to determine its loss.
Otdr launch cable purpose. The using of otdr launch boxes seems really easy. During a test the launch box is placed between the otdr and the near end of a patch panel. If you want to get accurate test result of the fiber link the length of the optical fiber inside the otdr launch box should be long enough to cover the whole dead zone. This launch cable connects otdr to ftth or any network using apc connections.
When testing fiber optic cable with an optical time domain reflectometer otdr these launch boxes eliminate the dead zone. However the handling of them should be careful. Its purpose is to detect locate and measure elements at any location on a fiber optic link. Otdrs are always used with a launch cable and may use a receive cable.
Both a launch and receive cable are needed to measure complete link loss of a fiber with an otdr. The afl fr1 sm 150 sc alc fiber ring otdr launch cable features 150 meters of single mode fiber optic cable with sc and angled lc connectors in a portable and lightweight ring. Used in conjunction with an otdr the ftb ltc psb spsb covers the otdr s dead zone enabling loss measurement on the first and last connections of a fiber under test. Launch fibers place a necessary length of fiber between the otdr and the actual fiber being measured providing both the time and distance required for the otdr to.
Otdr testing requires launch and receive test cables to measure the end. If you don t use a launch cable otdr bulkhead event not seen fiber under test end of fut reflective event with loss can t see end of fut using a 5ns pw using a 1us pw wider pulse width used but this results in the deadzone getting longer. It is essential for testing optical fiber links in premises networks. Without a launch box it is difficult to measure the relative loss at the near end and far end of the patch panel connections.
Dead zones can be overcome by connecting a long launch cable to the otdr. Measurement using a launch cable launch cable launch cable otdr 1m patchcord. Ftb ltc psb spsb launch test cable pulse suppressor box. It functions by launching pulses of light into the optical fiber and measuring the back reflections created by the faults splices and bends.
Noyes fiber rings from afl are a necessity when testing with an otdr. Attenuation and event deadzones explained make sure that the otdr launch fiber used is of the same core diameter and connector type as the fiber link under test. Because very long test cables are impractical to transport and use noyes designed coiled lengths of 50 µm multimode 62 5 µm multimode or single mode fiber conveniently packaged in compact rings.