New developments in field splicing of avionics fiber optic cable

L. Wesson
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Abstract

The challenge of repairing of fiber optic cables on aircraft has been recognized for some time, but until recently very few solutions have been pursued or accepted. Since 2004, however, several companies and agencies, particularly the Naval Air Warfare Center (NAVAIR), have directed attention to this problem. Basically four generic approaches are agreed-upon - remove and replace an entire damaged cable, reterminate connector termini on site, mechanically splice a damaged cable, or fusion splice it - each with advantages and disadvantages depending on the application. In this paper we discuss some recent advances in mechanical and fusion splicing, with particular attention to cable strength restoration and safety in hazardous atmospheres (fueled aircraft).
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航空电子光缆现场拼接技术的新进展
修理飞机上的光纤电缆的挑战已经认识到一段时间了,但直到最近,很少有解决办法被追求或接受。然而,自2004年以来,一些公司和机构,特别是海军空战中心(NAVAIR),已经开始关注这个问题。基本上有四种通用的方法是一致同意的——移除并更换整个损坏的电缆,在现场重新连接连接器端子,机械拼接损坏的电缆,或融合拼接——每种方法都有优缺点,具体取决于应用。在本文中,我们讨论了一些最新进展的机械和融合拼接,特别关注电缆的强度恢复和安全在危险环境(燃料飞机)。
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