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    • 1. 发明申请
    • OPTICAL WAVEGUIDE, OPTO-ELECTRIC HYBRID BOARD, AND OPTICAL MODULE
    • 光电波,OPTO-ELECTRIC混合板和光模块
    • US20110235964A1
    • 2011-09-29
    • US13061314
    • 2009-08-28
    • Hiroshi MasudaToshihiro KurodaTomoaki Shibata
    • Hiroshi MasudaToshihiro KurodaTomoaki Shibata
    • G02B6/36G02B6/26
    • G02B6/4214G02B6/138H01L2224/48091H01L2224/48137H05K1/0274H05K1/183H05K3/365H01L2924/00014
    • The present invention relates to an optical waveguide comprising a lower cladding layer, a patternized core layer and an upper cladding layer, wherein a striking part for positioning is provided in one end part thereof, and an optical path turning mirror face is formed in a position different from a striking part-forming end part in the above core layer.Capable of being provided are an optical waveguide and an optoelectronic circuit board each having a simple configuration in which an optical device is not mounted on an optical wiring part or an optoelectronic composite wiring part and capable of connecting an optical device with a core of an optical waveguide in an optical wiring part (optical waveguide) or an optoelectronic composite wiring part (optoelectronic circuit board) at a high position accuracy and an optical module comprising an optical waveguide or an optoelectronic circuit board and a connector.
    • 本发明涉及一种包括下包层,图案化核心层和上包层的光波导,其中在其一个端部设置有用于定位的击打部分,并且光路转向镜面形成在一个位置 与上述芯层中的打击部分形成端部不同。 能够提供的是光波导和光电子电路板,其具有简单的配置,其中光学装置不安装在光布线部分或光电复合布线部分上,并且能够将光学装置与光学芯部连接 光学配线部(光波导路)或光电子复合配线部(光电子电路基板)的高精度的波导管以及包括光波导或光电子电路基板以及连接器的光学模块。
    • 3. 发明申请
    • METHOD FOR PRODUCING OPTICAL WAVEGUIDE, OPTICAL WAVEGUIDE, AND PHOTOELECTRIC COMPOSITE WIRING BOARD
    • 生产光波导,光波导和光电复合布线板的方法
    • US20120039563A1
    • 2012-02-16
    • US13146257
    • 2010-01-27
    • Tomoaki ShibataToshihiro KurodaMasatoshi YamaguchiShigeyuki YagiHiroshi Masuda
    • Tomoaki ShibataToshihiro KurodaMasatoshi YamaguchiShigeyuki YagiHiroshi Masuda
    • G02B6/12B44C3/02G02B6/02
    • G02B6/1221G02B6/138Y10T156/1039
    • (1) A method for producing a flexible optical waveguide, containing: a step of forming a first cladding layer; a step of forming a first core layer by laminating a resin film for forming a core layer on at least one end portion of the first cladding layer; a step of forming a second core layer by laminating a resin film for forming a core layer on an entire surface of the first core layer and the first cladding layer; a step of forming a core pattern by patterning the first and second core layers; and a step of embedding the core pattern by forming a second cladding layer on the core pattern and the first cladding layer, (2) a flexible optical waveguide containing a lower cladding layer, a core part and an upper cladding layer, the upper cladding layer having a width that is smaller than a width of the lower cladding layer at least in a bent portion, and is equal to or smaller than a width of the lower cladding layer in an end portion, and the lower cladding layer having a width in a bent portion that is equal to or smaller than a width thereof in an end portion, and a method for producing the same. A flexible optical waveguide that is excellent in bending durability and has small optical loss, and a method for producing the same.
    • (1)柔性光波导的制造方法,其特征在于,包括:形成第一包层的工序; 通过在第一包层的至少一个端部层叠用于形成芯层的树脂膜来形成第一芯层的步骤; 通过在第一芯层和第一包层的整个表面上层叠用于形成芯层的树脂膜来形成第二芯层的步骤; 通过图案化第一和第二芯层来形成芯图案的步骤; 以及通过在芯图案和第一包层上形成第二包层来嵌入芯图案的步骤,(2)包含下包层,芯部和上包层的柔性光波导,上包层 其至少在弯曲部分具有小于下包层的宽度的宽度,并且等于或小于端部中的下包层的宽度,并且下包层的宽度在 端部的宽度等于或小于其宽度的弯曲部分及其制造方法。 弯曲耐久性优异,光损耗小的挠性光波导及其制造方法。
    • 7. 发明授权
    • Optical waveguide substrate and method for manufacturing same
    • 光波导基板及其制造方法
    • US08818147B2
    • 2014-08-26
    • US13501331
    • 2010-10-12
    • Toshihiro KurodaDaichi SakaiShigeyuki YagiTomoaki Shibata
    • Toshihiro KurodaDaichi SakaiShigeyuki YagiTomoaki Shibata
    • G02B6/12
    • G02B6/42G02B6/122G02B6/4214H05K1/0274
    • According to a manufacturing method of an optical waveguide substrate including a core (12) and clads (11) (13) and provided with an optical axis conversion mirror (14) in the core and an alignment recess for the optical axis conversion mirror with respect to a light receiving and emitting element, the recess is obtained by obtaining an outline of the core by synthesizing at least an image captured by focusing a microscope (20) to a highest position (14a) of the core in an optical axis conversion mirror portion and an image captured by focusing the microscope to a lowest position (14d), and by determining a position of the alignment recess in reference to a center of gravity of the outline, and according to an optical waveguide substrate obtained by this manufacturing method, it becomes possible to provide an optical waveguide substrate in which the optical axis conversion mirror in the optical waveguide substrate and the light receiving and emitting element are aligned with respect to each other at an extremely high degree of accuracy and a manufacturing method thereof.
    • 根据包括芯部(12)和包层(11)(13)的光波导基板的制造方法,在芯体中设置有光轴转换反射镜(14)和光轴转换反射镜的对准凹部 通过将至少将通过将显微镜(20)聚焦到所述芯的最高位置(14a)的图像合成到光轴转换镜部分中来获得所述芯的轮廓来获得所述凹部 以及通过将显微镜聚焦到最低位置(14d)而捕获的图像,并且通过根据轮廓的重心确定对准凹部的位置,并且根据通过该制造方法获得的光波导基板 可以提供一种光波导基板,其中光波导基板中的光轴转换反射镜和光接收和发射元件相对于 彼此以极高的精度和其制造方法。
    • 8. 发明申请
    • OPTICAL WAVEGUIDE SUBSTRATE AND METHOD FOR MANUFACTURING SAME
    • 光波导基板及其制造方法
    • US20120219251A1
    • 2012-08-30
    • US13501331
    • 2010-10-12
    • Toshihiro KurodaDaichi SakaiShigeyuki YagiTomoaki Shibata
    • Toshihiro KurodaDaichi SakaiShigeyuki YagiTomoaki Shibata
    • G02B6/12B23P19/00B23Q17/00
    • G02B6/42G02B6/122G02B6/4214H05K1/0274
    • According to a manufacturing method of an optical waveguide substrate including a core (12) and clads (11) (13) and provided with an optical axis conversion mirror (14) in the core and an alignment recess for the optical axis conversion mirror with respect to a light receiving and emitting element, the recess is obtained by obtaining an outline of the core by synthesizing at least an image captured by focusing a microscope (20) to a highest position (14a) of the core in an optical axis conversion mirror portion and an image captured by focusing the microscope to a lowest position (14d), and by determining a position of the alignment recess in reference to a center of gravity of the outline, and according to an optical waveguide substrate obtained by this manufacturing method, it becomes possible to provide an optical waveguide substrate in which the optical axis conversion mirror in the optical waveguide substrate and the light receiving and emitting element are aligned with respect to each other at an extremely high degree of accuracy and a manufacturing method thereof.
    • 根据包括芯部(12)和包层(11)(13)的光波导基板的制造方法,在芯体中设置有光轴转换反射镜(14)和光轴转换反射镜的对准凹部 通过将至少将通过将显微镜(20)聚焦到所述芯的最高位置(14a)的图像合成到光轴转换镜部分中来获得所述芯的轮廓来获得所述凹部 以及通过将显微镜聚焦到最低位置(14d)而捕获的图像,并且通过根据轮廓的重心确定对准凹部的位置,并且根据通过该制造方法获得的光波导基板 可以提供一种光波导基板,其中光波导基板中的光轴转换反射镜和光接收和发射元件相对于 彼此以极高的精度和其制造方法。
    • 10. 发明申请
    • Optical waveguide and optical multiplexer-demultiplexer
    • 光波导和光复用器 - 解复用器
    • US20050041918A1
    • 2005-02-24
    • US10949657
    • 2004-09-27
    • Tomoaki ShibataHiroshi MasudaYasushi SugimotoTetsuya Hoshino
    • Tomoaki ShibataHiroshi MasudaYasushi SugimotoTetsuya Hoshino
    • G02B6/12G02B6/124G02B6/34G02B6/28
    • G02B6/12009G02B6/12007G02B6/124G02B6/2938
    • The present invention provides an optical waveguide which comprises a core 4 for incident light and a core 5 for outgoing light, wherein the width of the core 5 for outgoing light is more than 1.5 times that of the core 4 for incident light. This optical waveguide permits the multiplexing and/or demultiplexing of light rays even when the wavelengths thereof undergo changes within the range of about 10 nm. In addition, the present invention further provides an optical multiplexer-demultiplexer which comprises the combination of an optical waveguide serving as an optical path and a diffraction grating for demultiplexing and focusing light, wherein the absolute value of the difference between the refractive index (nTE) of the core layer of the optical waveguide in the direction parallel to the plane of the film and that (nTM) of the core layer thereof in the direction perpendicular to the plane of the film is not more than 0.007 at the wavelength used. This optical multiplexer-demultiplexer permits the control of the wavelength fluctuation observed for the outputted signal light dependent on the polarization direction of the incident signal light to not more than 5 nm by the reduction of the birefringence index of the core layer of the optical waveguide to a level of not more than 0.007.
    • 本发明提供一种光波导,其包括用于入射光的核心4和用于出射光的核心5,其中用于出射光的核心5的宽度大于入射光的核心4的宽度的1.5倍。 该光波导即使当其波长在约10nm的范围内变化时也允许光线的复用和/或解复用。 另外,本发明还提供了一种光复用器 - 解复用器,其包括用作光路的光波导和用于解复用和聚焦光的衍射光栅的组合,其中折射率(nTE) 在平行于膜平面的方向上的光波导的芯层的垂直于膜平面的方向上的芯层的(nTM)在所使用的波长处不大于0.007。 该光复用器 - 解复用器允许通过将光波导的芯层的双折射率降低到对应于入射信号光的偏振方向的输出信号光观察到的波长波动为不大于5nm 一级不超过0.007。