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    • 3. 发明授权
    • Optical connection structure and production method of optical waveguide to be used for the optical connection structure
    • 用于光学连接结构的光波导的光学连接结构和制造方法
    • US08644662B2
    • 2014-02-04
    • US13074690
    • 2011-03-29
    • Kazunori MuneJunichi FujisawaYuichi Tsujita
    • Kazunori MuneJunichi FujisawaYuichi Tsujita
    • G02B6/30G02B6/26G02B6/32G02B6/02G02B6/10B05D5/06
    • G02B6/30
    • An optical connection structure which permits easy and automatic alignment between the optical axes of optical fibers and the optical axes of cores of an optical waveguide, and a production method which ensures that an optical waveguide for the optical connection structure can be efficiently produced with higher dimensional accuracy are provided. An over-cladding layer of the optical waveguide includes an extension portion provided in a longitudinal end portion thereof, and optical fiber fixing grooves are provided in the extension portion as extending along extension lines of cores coaxially with the cores and each having opposite ends, one of which is open in an end face of the extension portion and the other of which is closed. Optical fibers are fitted and fixed in the respective optical fiber fixing grooves. The over-cladding layer further includes a boundary portion (6) provided between the other closed ends of the optical fiber fixing grooves and the cores.
    • 一种光学连接结构,其允许光纤的光轴和光波导的芯的光轴之间的容易且自动的对准,以及确保用于光学连接结构的光波导可以以更高的尺寸有效地产生的制造方法 提供准确性。 光波导的上包层包括设置在其纵向端部的延伸部分,并且光纤固定槽设置在延伸部分中,沿着与芯同轴的芯的延伸线延伸,并且每个具有相对端,一个 其在延伸部分的端面处是敞开的,另一个是封闭的。 光纤固定在相应的光纤固定槽中。 上包层还包括设置在光纤固定槽的其它封闭端和芯之间的边界部分(6)。
    • 4. 发明申请
    • OPTICAL CONNECTION STRUCTURE AND PRODUCTION METHOD OF OPTICAL WAVEGUIDE TO BE USED FOR THE OPTICAL CONNECTION STRUCTURE
    • 用于光学连接结构的光波导的光学连接结构和生产方法
    • US20110286701A1
    • 2011-11-24
    • US13074690
    • 2011-03-29
    • Kazunori MuneJunichi FujisawaYuichi Tsujita
    • Kazunori MuneJunichi FujisawaYuichi Tsujita
    • G02B6/38G02B6/02
    • G02B6/30
    • An optical connection structure which permits easy and automatic alignment between the optical axes of optical fibers and the optical axes of cores of an optical waveguide, and a production method which ensures that an optical waveguide for the optical connection structure can be efficiently produced with higher dimensional accuracy are provided. An over-cladding layer of the optical waveguide includes an extension portion provided in a longitudinal end portion thereof, and optical fiber fixing grooves are provided in the extension portion as extending along extension lines of cores coaxially with the cores and each having opposite ends, one of which is open in an end face of the extension portion and the other of which is closed. Optical fibers are fitted and fixed in the respective optical fiber fixing grooves. The over-cladding layer further includes a boundary portion (6) provided between the other closed ends of the optical fiber fixing grooves and the cores.
    • 一种光学连接结构,其允许光纤的光轴和光波导的芯的光轴之间的容易且自动的对准,以及确保用于光学连接结构的光波导可以以更高的尺寸有效地产生的制造方法 提供准确性。 光波导的上包层包括设置在其纵向端部的延伸部分,并且光纤固定槽设置在延伸部分中,沿着与芯同轴的芯的延长线延伸,并且每个具有相对端,一个 其在延伸部分的端面处是敞开的,另一个是封闭的。 光纤固定在相应的光纤固定槽中。 上包层还包括设置在光纤固定槽的其它封闭端和芯之间的边界部分(6)。
    • 6. 发明授权
    • Optical waveguide optical connector using same, and manufacturing method thereof
    • 使用其的光波导光学连接器及其制造方法
    • US08554041B2
    • 2013-10-08
    • US13046045
    • 2011-03-11
    • Kazunori MuneJunichi FujisawaYuichi Tsujita
    • Kazunori MuneJunichi FujisawaYuichi Tsujita
    • G02B6/10
    • G02B6/3897G02B6/1221G02B6/138G02B6/3885
    • Disclosed is inexpensive optical waveguide for an optical connector which is accurately positioned across the width of cores when inserted in and fixed in an optical waveguide fixing through hole of a ferrule to provide low optical coupling loss when connected, an optical connector using the same, and a method of manufacturing the same. An optical waveguide for an optical connector includes cores, an under cladding layer, and an over cladding layer. The strip-shaped optical waveguide has a longitudinal end portion configured to be fixed in a predetermined through hole provided in a ferrule of an optical connector. The cores are formed on the under cladding layer by a photolithographic method. The over cladding layer is formed with respect to the positions of the cores or positioning alignment marks by a photolithographic method. The over cladding layer covers the cores, and the under cladding layer including crosswise end surfaces thereof.
    • 公开了一种用于光连接器的便宜的光波导,其插入并固定在套圈的光波导固定通孔中时,准确地定位在芯的宽度上,以在连接时提供低的光耦合损耗,使用该光连接器的光连接器和 其制造方法。 光连接器用光波导包括芯,下敷层和上敷层。 带状光波导具有被配置为固定在设置在光连接器的套圈中的预定通孔中的纵向端部。 芯通过光刻法在下敷层上形成。 通过光刻法相对于芯的位置或定位对准标记形成上敷层。 上敷层覆盖芯,下敷层包括其横向端面。
    • 7. 发明授权
    • Optical waveguide device and manufacturing method thereof
    • 光波导器件及其制造方法
    • US08744220B2
    • 2014-06-03
    • US12761612
    • 2010-04-16
    • Sazzadur Rahman KhanKazunori Mune
    • Sazzadur Rahman KhanKazunori Mune
    • G02B6/12G02B6/26G02B6/42G02B6/36
    • G02B6/42G02B6/1221G02B6/4214G02B2006/12104
    • An optical waveguide device which is free from interference with an optical path between a light emitting element and an optical waveguide thereof, and to provide a method of manufacturing the optical waveguide device. A light emitting element (5) is provided on an upper surface of a first under-cladding layer (21), and a second under-cladding layer (22) is provided on the upper surface of the first under-cladding layer (21), covering the light emitting element (5). A core 3 which receives light emitted from the light emitting element (5) through the second under-cladding layer (22) is provided on an upper surface of the second under-cladding layer (22). The core (3) is located in a position such that the light emitted from the light emitting element (5) is incident on the core (3).
    • 一种光波导器件,其不受干涉发光元件与其光波导之间的光路的影响,并提供制造光波导器件的方法。 在第一下包层21的上表面设置有发光元件(5),在第一下包层21的上表面设置第二下敷层22, ,覆盖发光元件(5)。 在第二下敷层(22)的上表面设置有通过第二下敷层(22)从发光元件(5)射出的光的芯体3。 芯(3)位于使得从发光元件(5)发射的光入射到芯(3)上的位置。