Title :
Splice-loss estimation for an automated ribbon-fiber fusion splicer
Author :
Zheng, Wenxin ; Hulton, O. ; Esmaeli, Sasan
Author_Institution :
Network Prod. Div., Ericsson Cables AB, Sundbyberg, Sweden
fDate :
8/1/1999 12:00:00 AM
Abstract :
Single-mode and multimode 2-24 optical fiber ribbon cables have been developed and installed in many countries in recent years. Meanwhile, several different types of mass fusion splicers have been produced and deployed in field for ribbon cable installation. However, a reliable method for local splice-loss evaluation remains a critical subject and an attractive topic to many scientists. A new concept for ribbon-fiber splice evaluation is developed and presented in this paper. With the concept, hot fiber images are taken during the fusion splicing. Core deformation observed from the hot images is combined with the cladding deform information from cold images to evaluate the splice loss. Reasonably good correlation between the calculated and measured splice losses are obtained in a large number of splice tests in our experiment. The Bellcore accuracy criteria for splice loss estimation are met by most of ribbon-fiber types
Keywords :
CCD image sensors; automatic optical inspection; measurement errors; optical fibre fabrication; optical fibre losses; optical fibre networks; optical fibre testing; telecommunication network reliability; Bellcore accuracy criteria; automated ribbon-fiber fusion splicer; cladding deform information; hot fiber image; local splice-loss evaluation; mass fusion splicers; multimode 2-24 optical fiber ribbon cables; optical fibre testing; reliable method; ribbon cable installation; ribbon-fiber types; splice loss estimation; splice-loss estimation; Digital images; Loss measurement; Optical fiber cables; Optical fiber devices; Optical fiber testing; Optical fibers; Optical imaging; Optical losses; Shape; Splicing;
Journal_Title :
Lightwave Technology, Journal of
