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    • 4. 发明授权
    • Method of manufacturing holder-mounted optical element
    • 制造支架式光学元件的方法
    • US07386998B2
    • 2008-06-17
    • US10802170
    • 2004-03-17
    • Kimihiro Kikuchi
    • Kimihiro Kikuchi
    • C03B11/08C03C27/02G02B7/02
    • G02B3/00C03B11/08C03B35/00C03B2215/50C03B2215/73C03B2215/79C03C27/02G02B7/02G02B7/027
    • A cylindrical holder material having a thin deformed portion is located in a press forming die. An optical element material is installed inside the holder material and the holder material and the optical element material are heated to their respective softening temperatures, thereby forming a cylindrical holder from the holder material and an optical element from the optical element material by press forming the holder material and the optical element material that have been heated to their respective softening temperatures. Thus, the optical element is integrated inside the holder and the deformed portion of the holder is deformed towards the outside thereof by a pressing force applied by the optical element.
    • 具有薄变形部分的圆柱形保持器材料位于冲压成形模具中。 光学元件材料安装在保持器材料的内部,并且保持器材料和光学元件材料被加热到其相应的软化温度,从而从保持器材料形成圆柱形保持器,并且通过冲压成形保持器从光学元件材料形成光学元件 材料和已被加热到其各自的软化温度的光学元件材料。 因此,光学元件集成在保持器内部,并且保持器的变形部分通过由光学元件施加的按压力朝向其外部变形。
    • 9. 发明授权
    • Optical semiconductor device provided with high-NA lens
    • 提供高NA透镜的光学半导体器件
    • US06625188B2
    • 2003-09-23
    • US09784592
    • 2001-02-15
    • Miki OnoKimihiro Kikuchi
    • Miki OnoKimihiro Kikuchi
    • H01S500
    • G02B6/4204H01S5/02252H01S5/02284
    • An optical semiconductor device to increase optical communication speed has a silicon substrate with an etched V-shaped first groove portion, a light emitting element which has an optical axis in the direction of the first groove portion and is mounted to the upper surface of the silicon substrate, and a high NA aspheric lens is mounted in the first groove portion. The first groove portion is composed of first and second opposing inclined surfaces and a third inclined surface perpendicular to the first and second inclined surfaces. A slit is cut in the silicon substrate extends in a direction perpendicular to the direction of the first groove portion and includes the first, second, and third inclined surfaces. The aspheric lens is mounted to the first and second inclined surfaces and has a part thereof protruding in the slit.
    • 提高光通信速度的光半导体装置具有具有蚀刻的V形第一槽部分的硅衬底,在第一槽部分的方向上具有光轴并且安装到硅的上表面的发光元件 衬底和高NA非球面透镜安装在第一凹槽部分中。 第一槽部由第一和第二相对的倾斜表面和垂直于第一和第二倾斜表面的第三倾斜表面组成。 在硅基板上切割的狭缝在与第一槽部的方向垂直的方向上延伸并且包括第一,第二和第三倾斜表面。 非球面透镜安装在第一和第二倾斜表面上,并且其一部分在狭缝中突出。
    • 10. 发明授权
    • Optical communication connector
    • 光通信连接器
    • US06259839B1
    • 2001-07-10
    • US09264292
    • 1999-03-08
    • Kimihiro KikuchiYoshihiro Someno
    • Kimihiro KikuchiYoshihiro Someno
    • G02B632
    • G02B6/3825G02B6/32
    • Disclosed herein is an optical communication connector. A connector optically couples between a pair of plastic fibers and a pair of silica fibers, and a connector optically couples between the other ends of the silica fibers and a pair of plastic fibers. In such a construction, signal light is bidirectionally transmitted using these fibers. The connector is provided with one condenser lens within a casing. On the side of the transmission of signal light from the silica fiber to the plastic fiber, end surfaces of both cores P and Q are brought into intimate contact with each other. On the side of the transmission of signal light from the plastic fiber to the silica fiber, end surfaces of both cores P and Q are opposed to each other with the condenser lens interposed therebetween. The other connector is also constructed in a manner similar to the above connector.
    • 这里公开了光通信连接器。 一个连接器在一对塑料纤维和一对二氧化硅纤维之间光学耦合,并且连接器在二氧化硅纤维的另一端和一对塑料纤维之间光耦合。 在这种结构中,使用这些光纤双向传输信号光。 连接器在壳体内设置一个聚光透镜。 在从二氧化硅纤维向塑料纤维传输信号光的一侧,两个芯P和Q的端面彼此紧密接触。 在将来自塑料纤维的信号光传输到二氧化硅纤维的一侧,两个芯P和Q的端面彼此相对,聚光透镜插入其间。 另一个连接器也以类似于上述连接器的方式构造。