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    • 3. 发明授权
    • Method, apparatus and system for detecting connection status of optical fiber jumper
    • 检测光纤跳线连接状态的方法,装置和系统
    • US08965200B2
    • 2015-02-24
    • US13301469
    • 2011-11-21
    • Yunsheng WenJun ZhaoBo WangXiaolei Shan
    • Yunsheng WenJun ZhaoBo WangXiaolei Shan
    • H04B10/08G02B6/38
    • G02B6/3895
    • A method, an apparatus and a system for detecting a connection status of an optical fiber jumper are provided in the embodiments of the present invention. The method for detecting a connection status of an optical fiber jumper includes: judging a connection status of a second port and a first port according to whether an optical signal sent by the first port to the second port through a first optical fiber is received, wherein the first optical fiber is connected to two ends of an optical fiber jumper, and the two ends of the optical fiber jumper are connected to the first port and the second port respectively; and obtaining a port identification corresponding to the first port according to the optical signal if the optical signal is received.
    • 在本发明的实施例中提供了用于检测光纤跳线的连接状态的方法,装置和系统。 用于检测光纤跳线的连接状态的方法包括:根据第一端口通过第一光纤发送到第二端口的光信号是否接收到第二端口和第一端口的连接状态,其中 第一光纤连接到光纤跳线的两端,光纤跳线的两端分别连接到第一端口和第二端口; 并且如果接收到光信号,则根据光信号获得与第一端口对应的端口标识。
    • 4. 发明申请
    • OPTICAL CABLE AND OPTICAL CABLE SYSTEM
    • 光电缆和光缆系统
    • US20120063732A1
    • 2012-03-15
    • US13300038
    • 2011-11-18
    • Wenxin WuDe LiJun ZhaoYunsheng WenYanhua Xiong
    • Wenxin WuDe LiJun ZhaoYunsheng WenYanhua Xiong
    • G02B6/44
    • G02B6/4408G02B6/4475G02B6/4482G02B6/4491
    • Embodiments of the present disclosure disclose an optical cable and an optical cable system, where the optical cable includes an SZ-shaped optical cable skeleton and a plurality of optical fiber units. Skeleton slots is recessed in a periphery of the optical cable skeleton, and the plurality of optical fiber units is grouped and respectively disposed in the corresponding skeleton slots, thereby having the advantages of being easy to strip and draw, high reliability, and long lifetime. Moreover, the optical fiber does not need to be connected when being diverged on floors during installation, thereby reducing the fusion splicing/termination connection time, simplifying the optical cable wiring, greatly reducing deployment cost of an Optical Distribution Network (ODN), and speeding up the scale deployment of the FTTX ODN; in addition, interference among the optical fibers is avoided when the optical fibers are drawn, thereby increasing reliability of the optical fibers after installation.
    • 本公开的实施例公开了光缆和光缆系统,其中光缆包括SZ形光缆骨架和多个光纤单元。 骨架槽凹陷在光缆骨架的周围,多个光纤单元分组并分别设置在相应的骨架槽中,具有易于剥离和拉伸的优点,高可靠性和长寿命。 此外,光纤在安装过程中在地板上发散时不需要连接,从而降低了熔接/终端连接时间,简化了光缆布线,大大降低了配光网络(ODN)的部署成本,并加快了速度 FTTX ODN的规模部署; 此外,当光纤被拉伸时,避免了光纤之间的干扰,从而提高了安装后光纤的可靠性。
    • 6. 发明申请
    • METHOD, APPARATUS AND SYSTEM FOR DETECTING CONNECTION STATUS OF OPTICAL FIBER JUMPER
    • 用于检测光纤跳线器的连接状态的方法,装置和系统
    • US20120063767A1
    • 2012-03-15
    • US13301469
    • 2011-11-21
    • Yunsheng WenJun ZhaoBo WangXiaolei Shan
    • Yunsheng WenJun ZhaoBo WangXiaolei Shan
    • H04B10/08
    • G02B6/3895
    • A method, an apparatus and a system for detecting a connection status of an optical fiber jumper are provided in the embodiments of the present invention. The method for detecting a connection status of an optical fiber jumper includes: judging a connection status of a second port and a first port according to whether an optical signal sent by the first port to the second port through a first optical fiber is received, wherein the first optical fiber is connected to two ends of an optical fiber jumper, and the two ends of the optical fiber jumper are connected to the first port and the second port respectively; and obtaining a port identification corresponding to the first port according to the optical signal if the optical signal is received.
    • 在本发明的实施例中提供了用于检测光纤跳线的连接状态的方法,装置和系统。 用于检测光纤跳线的连接状态的方法包括:根据第一端口通过第一光纤发送到第二端口的光信号是否接收到第二端口和第一端口的连接状态,其中 第一光纤连接到光纤跳线的两端,光纤跳线的两端分别连接到第一端口和第二端口; 并且如果接收到光信号,则根据光信号获得与第一端口对应的端口标识。
    • 8. 发明授权
    • Optical cable and optical cable system
    • 光缆和光缆系统
    • US08660392B2
    • 2014-02-25
    • US13300038
    • 2011-11-18
    • Wenxin WuDe LiJun ZhaoYunsheng WenYanhua Xiong
    • Wenxin WuDe LiJun ZhaoYunsheng WenYanhua Xiong
    • G02B6/44
    • G02B6/4408G02B6/4475G02B6/4482G02B6/4491
    • Embodiments of the present disclosure disclose an optical cable and an optical cable system, where the optical cable includes an SZ-shaped optical cable skeleton and a plurality of optical fiber units. Skeleton slots is recessed in a periphery of the optical cable skeleton, and the plurality of optical fiber units is grouped and respectively disposed in the corresponding skeleton slots, thereby having the advantages of being easy to strip and draw, high reliability, and long lifetime. Moreover, the optical fiber does not need to be connected when being diverged on floors during installation, thereby reducing the fusion splicing/termination connection time, simplifying the optical cable wiring, greatly reducing deployment cost of an Optical Distribution Network (ODN), and speeding up the scale deployment of the FTTX ODN; in addition, interference among the optical fibers is avoided when the optical fibers are drawn, thereby increasing reliability of the optical fibers after installation.
    • 本公开的实施例公开了光缆和光缆系统,其中光缆包括SZ形光缆骨架和多个光纤单元。 骨架槽凹陷在光缆骨架的周围,多个光纤单元分组并分别设置在相应的骨架槽中,具有易于剥离和拉伸的优点,高可靠性和长寿命。 此外,光纤在安装过程中在分层时不需要连接,从而降低了融合/终端连接时间,简化了光缆布线,大大降低了光网络(ODN)的部署成本,并加快了 FTTX ODN的规模部署; 此外,当光纤被拉伸时,避免了光纤之间的干扰,从而提高了安装后光纤的可靠性。