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    • 3. 发明公开
    • OPTICAL FIBER CONNECTOR
    • 光纤连接器
    • EP2427790A1
    • 2012-03-14
    • EP09847929.8
    • 2009-07-31
    • Hewlett-Packard Development Company, L.P.
    • ROSENBERG, Paul, KesslerMATHAI, Sagi, VargheseTAN, Michael, Renne TyMCLAREN, Moray
    • G02B6/38G02B6/36
    • G02B6/3829G02B6/3652G02B6/3676G02B6/368G02B6/3885G02B6/3897
    • An optical fiber connector is disclosed. The optical fiber connector comprises a form having a curved surface with a first end near fee bottom surface of the form. The curved surface is perpendicular to the bottom surface of the form at the first end. A first plurality of active optical fibers are positioned along the curved surface of the form in a side-by side arrangement with the tips of each of the first plurality υf optical fibers adjacent to the first end of the curved surface. The ends of each of the first plurality of active optical fibers have been striped down to cladding and the cladding of each optical fiber contacts the cladding of the adjacent optical fibers. An inner cover is attached to the form thereby capturing the first plurality of active optical fibers between the curved surface of the form, arid an inside curved surface in the inner cover.
    • 公开了一种光纤连接器。 光纤连接器包括具有弯曲表面的形式,其具有靠近形式的费底表面的第一端。 曲面在第一端垂直于模板的底面。 第一组多个有源光纤以并排布置沿着该模板的曲面定位,其中第一组多个光纤中的每一个的顶端与曲面的第一端相邻。 第一多根有源光纤中的每一根的末端已被分条到包层,并且每根光纤的包层接触相邻光纤的包层。 内罩连接到模板,从而在模板的弯曲表面和内覆盖件的内弯曲表面之间捕获第一多根有源光纤。
    • 4. 发明公开
    • Optical fiber structure
    • Glasfaserstruktur
    • EP2083299A1
    • 2009-07-29
    • EP09000870.7
    • 2009-01-22
    • FUJIFILM Corporation
    • Shimotsu, Shinichi
    • G02B6/36G02B6/06B41J2/46
    • G02B6/08B41J2/46G02B6/3636G02B6/3676
    • An optical fiber structure (100, 140, 150, 200, 240, 250, 300, 350) includes a first fiber array (110, 210, 310) and a second fiber array (120, 220, 320), which are placed one on the other. For example, the first fiber array (110) includes a substrate (111) having four V-shaped grooves (112) and four first optical fibers (10), the output ends of which are linearly arranged and fixed to the grooves. The second fiber array (120) includes a substrate (121) having four V-shaped grooves (122) and four second optical fibers (20), the output ends of which are linearly arranged and fixed to the grooves. The first optical fiber (10) has a taper portion (18), in which the core diameter decreases along an optical axis, and the core diameter and the outer diameter of the first optical fiber (10) at the tip of the taper portion (18) thereof are 60µm and 80µm, respectively. The core diameter and the outer diameter of the second optical fiber (20) are 105µm and 125µm, respectively.
    • 光纤结构(100,140,​​150,200,240,250,300,350)包括第一光纤阵列(110,210,310)和第二光纤阵列(120,220,320),其被放置在一个 在另一。 例如,第一纤维阵列(110)包括具有四个V形槽(112)和四个第一光纤(10)的基板(111),其输出端线性地布置并固定到槽。 第二光纤阵列(120)包括具有四个V形槽(122)和四个第二光纤(20)的基板(121),其输出端线性地布置并固定到槽。 第一光纤(10)具有锥形部(18),其中纤芯直径沿着光轴减小,并且第一光纤(10)的芯直径和外径在锥形部分的尖端处 18)分别为60μm和80μm。 第二光纤(20)的芯径和外径分别为105μm和125μm。
    • 10. 发明公开
    • Optical harness and cross-connect method
    • 光交叉连接线束和方法
    • EP1065544A3
    • 2002-02-13
    • EP00305212.3
    • 2000-06-20
    • LUCENT TECHNOLOGIES INC.
    • Shahid, Muhammed Afzal
    • G02B6/44
    • G02B6/3608G02B6/3652G02B6/3668G02B6/3676G02B6/3696G02B6/3839G02B6/3885G02B6/4472
    • The present invention is an optical harness and method for an optical cross-connect. The optical harness is defined primarily by a first portion and a second portion. The first portion of the optical harness comprises a number M of fiber optic row cables where each fiber optic row cable comprises an array of a number N of fiber optics arranged on a first plane. The first plane on which each fiber optic row cable is disposed is substantially parallel to each of the other first planes on which a fiber optic row cable is disposed. The second portion of the optical harness comprises a number N of fiber optic column cables where each fiber optic column cable comprises an array of a number M of fiber optics arranged on a second plane. Each fiber optic column cable is disposed on a second plane being substantially parallel to each of the other second planes on which each other fiber optic column cable is disposed. The optical harness further comprises a holding mechanism disposed intermediate the first portion and the second portion of the optical harness. The orientation of the first planes on which the fiber optic row cables are disposed is arranged at a defined angle relative to the second plane on which the fiber optic column cables are disposed. The holding mechanism is arranged and configured to transition the fibers from one configuration toward the first portion to the second configuration toward the second portion and to prevent the separation of the fibers from the optical fiber row cables from progressing toward the first portion of the optical harness. The method for providing an optical cross-connect between a first element and a second element comprises providing the optical harness with connectors disposed on free ends of each of the fiber optic row cables and each of the fiber optic column cables. The fiber optic row cable connectors can be placed in communication with first element, and the fiber optic column cable connectors can be placed in communication with the second element.