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    • 52. 发明专利
    • Manufacturing apparatus and method for optical waveguide structure
    • 光学波形结构的制造装置和方法
    • JP2011150106A
    • 2011-08-04
    • JP2010010700
    • 2010-01-21
    • Fujitsu Ltd富士通株式会社
    • IKURA KAZUYUKI
    • G02B6/13G02B6/122G02B6/42
    • G02B6/4214G02B6/13G02B6/30G02B6/42G02B6/4249G02B6/4292
    • PROBLEM TO BE SOLVED: To accurately allocate a clad film on a clad structure composing an optical waveguide structure. SOLUTION: The manufacturing apparatus 500 includes: a shape retaining rack 151 on which a clad film 6 is held; a microscope 505 which confirms the position of the clad film 6 on the shape retaining rack 151; a first position adjusting mechanism 152 that adjusts the position of the shape retaining rack 151 while checking the position of the clad film 6 with the microscope 505; and a pressing head 21 which presses the clad film 6 transferred from the shape retaining rack 151 onto a clad structure 1. The manufacturing apparatus 500 further includes a third stage 100 which holds the clad structure 1 and can face the microscope 505 and the pressing head 21. The manufacturing apparatus 500 further includes a second position adjusting mechanism 101 which adjusts the position of the third stage 100 while checking the position of the clad structure 1 with the microscope 505. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:为了在构成光波导结构的包层结构上精确地分配包覆膜。 解决方案:制造装置500包括:保持包层膜6的形状保持架151; 显示器505,其确认包覆膜6在形状保持架151上的位置; 第一位置调整机构152,用显微镜505检查包膜6的位置,调整形状保持架151的位置; 以及按压头21,其将从形状保持架151转移的包覆膜6压到包层结构1上。制造装置500还包括保持包层结构1并可面向显微镜505的第三阶段100和压头 制造装置500还包括第二位置调整机构101,其利用显微镜505检查包层结构1的位置,同时调整第三阶段100的位置。(C)2011,JPO&INPIT
    • 58. 发明专利
    • Lens array and optical module having with the same
    • 透镜阵列和光学模块
    • JP2010262222A
    • 2010-11-18
    • JP2009114546
    • 2009-05-11
    • Enplas Corp株式会社エンプラス
    • MORIOKA SHINPEI
    • G02B3/00G02B3/08G02B5/00G02B6/42H01L31/12H01L33/58
    • G02B6/4249G02B6/4206G02B6/4214H01L27/14625
    • PROBLEM TO BE SOLVED: To provide a lens array capable of surely obtaining monitor light and facilitating manufacturing, and to provide an optical module having the lens array. SOLUTION: Light from a light-emitting element 7 which has entered a first lens surface 11 is separated into the side of a second lens surface 12 and the side of a third lens surface 13 by the reflecting and transmitting surface 15 of a first concave part 14 and the monitor light, included in the light separated to the side of the third lens surface 13 is emitted to the side of a first light-receiving element 8, through the refraction surface 19 of a second concave part 18 by the third lens surface 13. Then, an optical axis on the first lens surface 11 and an optical axis on the third lens surface 13 are formed in parallel with each other and the optical axis on the first lens surface 11 and an optical axis on the second lens surface 12 are formed in parallel with each other, or are perpendicular to each other. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种能够可靠地获得监视光并促进制造的透镜阵列,并提供具有透镜阵列的光学模块。 解决方案:已经进入第一透镜表面11的发光元件7的光通过反射和透射表面15被分离成第二透镜表面12的侧面和第三透镜表面13的侧面 包含在分离到第三透镜表面13侧的光的第一凹部14和监视光通过第二凹部18的折射面19被发射到第一受光元件8的一侧 然后,第一透镜表面11上的光轴和第三透镜表面13上的光轴彼此平行地形成,并且第一透镜表面11上的光轴和第二透镜表面13上的光轴 透镜面12彼此平行地形成,或者彼此垂直。 版权所有(C)2011,JPO&INPIT
    • 59. 发明专利
    • Optical waveguide with light-emitting device and optical touch panel
    • 具有发光装置和光触控面板的光波导
    • JP2010169943A
    • 2010-08-05
    • JP2009013044
    • 2009-01-23
    • Nitto Denko Corp日東電工株式会社
    • NAGAFUJI AKIKOSHIMIZU YUSUKE
    • G02B6/122G02B6/26G02B6/42G06F3/041G06F3/042
    • G06F3/0421G02B6/1228G02B6/138G02B6/2804G02B6/42G02B6/4249G02B2006/12154
    • PROBLEM TO BE SOLVED: To provide an optical waveguide with a light-emitting device, in which the width of a main input path from the light-emitting device is narrow and the intensity of light beams emitted from a plurality of branches is high. SOLUTION: The optical waveguide 10 with a light-emitting device includes branched points 16 sequentially provided in a guiding light direction 17 of a main path 14, and the width of the main path 14 becomes narrower as the main path 14 moves away from the light-emitting device 11. The optical waveguide 10 with the light-emitting device of this structure can reduce a width W1 because there is no space (cladding layers) between adjacent branched paths 15. Further, the optical waveguide 10 has excellent optical transmission efficiency because the branched paths 15 are short, resulting in high intensity of light emitted. Uniformity of the light emitted is equal to or more than that of a conventional optical waveguide with a light-emitting device. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:为了提供一种具有发光器件的光波导,其中来自发光器件的主输入路径的宽度窄,并且从多个分支发射的光束的强度为 高。 解决方案:具有发光装置的光波导10包括在主路径14的引导光方向17上顺序地设置的分支点16,并且主路径14的宽度随着主路径14移开而变窄 具有这种结构的发光装置的光波导10由于在相邻的分支路径15之间没有空间(包层)而能够减小宽度W1。此外,光波导10具有优异的光学 传输效率因为分支路径15短而导致发出的高强度光。 所发射的光的均匀度等于或大于具有发光装置的常规光波导的均匀性。 版权所有(C)2010,JPO&INPIT