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    • 83. 发明申请
    • OPTICAL TRANSMISSION MODULE AND ELECTRONIC DEVICE
    • 光传输模块和电子设备
    • US20100303412A1
    • 2010-12-02
    • US12439707
    • 2008-01-17
    • Toshiaki OkunoJunichi TanakaHiroto NozawaNaru YasudaHayami Hosokawa
    • Toshiaki OkunoJunichi TanakaHiroto NozawaNaru YasudaHayami Hosokawa
    • G02B6/42
    • G02B6/4206G02B6/4214G02B6/43
    • An optical transmission module has a light-emitting element, a light-receiving element, and an optical path for optically coupling the light-emitting element and the light-receiving element, and transmitting a optical signal. The optical path has a core part, a clad part surrounding the core part, and a support board for supporting the optical path itself and the light-receiving element. A resin part formed of resin having a refractive index higher than air outside the optical path is arranged at a part of a surface area of the clad part along an optical transmission direction to which optical signals are transmitted. The resin part has an inclined surface in which the surface on the opposite side of the clad part is tilted relative to the optical transmission direction. The inclined surface forms an acute angle with the surface of the clad part at the opposite side of the light-receiving element in the resin part.
    • 光传输模块具有发光元件,光接收元件和用于光耦合发光元件和光接收元件的光路,并且发送光信号。 光路具有芯部,围绕芯部的包层部以及用于支撑光路本身和光接收元件的支撑板。 沿着光信号透射的光传输方向,在包层部分的表面区域的一部分上配置由折射率高于光路外的空气的树脂形成的树脂部。 树脂部分具有倾斜表面,其中包层部分相对侧上的表面相对于光传输方向倾斜。 倾斜表面与树脂部分中的光接收元件的相对侧处的包层部分的表面成锐角。
    • 84. 发明申请
    • OPTICAL CABLE MODULE AND APPARATUS EMPLOYING IT
    • 光纤电缆和使用其的设备
    • US20100215315A1
    • 2010-08-26
    • US12160757
    • 2007-01-11
    • Kentaro HamanaAkira EnamiNaru YasudaHayami Hosokawa
    • Kentaro HamanaAkira EnamiNaru YasudaHayami Hosokawa
    • G02B6/42
    • G02B6/262G02B6/10G02B6/14G02B6/4202G02B6/4214G02B6/43
    • An optical cable module is mainly provided with: an optical waveguide (10), a light-receiving element (11) and a supporting substrate (14) at its end portion of the light releasing side. The end portion of the optical waveguide (10) is fixed in its relative positional relationship with the light-receiving element (11). The end face of the optical waveguide (10) is not made perpendicular to the light axis (X-axis), and is diagonally cut so as to form an optical path conversion mirror (10D). Assuming that a light ray (indicated by a solid line in the Figure) that passes through the center of the light-axis cross section of a core (10A), and is reflected by the optical path conversion mirror (10D), and then reaches a light-receiving face at a light axis reflection position, the center of the light-receiving element (11) is placed with a gap from the light axis reflection position, in the optical cable module (1).
    • 光缆模块主要在其光释放侧的端部设置有:光波导(10),光接收元件(11)和支撑基板(14)。 光波导(10)的端部与光接收元件(11)的相对位置关系固定。 光波导(10)的端面不与光轴(X轴)垂直,并且被对角切割以形成光路转换镜(10D)。 假设通过芯(10A)的光轴截面的中心的光线(图中由实线表示)并被光路转换镜(10D)反射,然后到达 在光缆反射位置的光接收面,光接收元件(11)的中心在光缆模块(1)中与光轴反射位置具有间隙。
    • 85. 发明申请
    • OPTICAL WAVEGUIDE, OPTICAL WAVEGUIDE MODULE, AND ELECTRONIC APPARATUS
    • 光波导,光波模块和电子设备
    • US20100135613A1
    • 2010-06-03
    • US12530793
    • 2008-03-14
    • Yukari TerakawaHayami Hosokawa
    • Yukari TerakawaHayami Hosokawa
    • G02B6/42G02B6/02F21S8/10F21V7/00
    • G02B6/4214G02B6/43
    • A light guide includes a core and a clad made of a material having an index of refraction different from an index of refraction of the core and covering the core, in which at least one of a light incident surface or a light exit surface of the core is arranged while shifted in parallel without changing respective inclined angles so that the inclined surface is divided into a plurality of inclined surfaces parallel in a longitudinal direction (X direction) of the rectangular shape in the orthogonal projection and the plurality of inclined surfaces closer to the light emitting portion are positioned in a direction (Z direction) of moving away from the end face to be in a shape extending in the direction (Z direction) of moving away from the end face in a stepwise manner as a whole.
    • 光导包括芯和由折射率不同于芯的折射率并覆盖芯的材料制成的包层,其中芯的光入射表面或光出射表面中的至少一个 被布置成平行移动而不改变相应的倾斜角度,使得倾斜表面被分成在正交突起中在矩形的纵向(X方向)上平行的多个倾斜表面,并且多个倾斜表面更靠近 发光部分沿着从端面移动的方向(Z方向)定位成整体上沿着从端面远离的方向(Z方向)延伸的形状。
    • 88. 发明授权
    • Optical multiplexer/demultiplexer and manufacturing method thereof
    • 光复用器/解复用器及其制造方法
    • US07228026B2
    • 2007-06-05
    • US11345941
    • 2006-02-02
    • Hiromi TotaniHayami Hosokawa
    • Hiromi TotaniHayami Hosokawa
    • G02B6/28G02B6/26
    • G02B6/2937G02B6/12007G02B6/2938
    • An optical multiplexer/demultiplexer and a manufacturing method thereof are disclosed, wherein a core is arranged on each side of a filter element, and the light is caused to enter the filter element from one of the cores without using a collimator lens. The loss of the transmitted light is reduced by optimizing the axial shift amount of the cores on the two sides. The optical axes of the cores 21, 23 located on both sides of the filter element 26 are displaced by δ. This axial shift amount δ is determined as A(λ)•T•tan θ, where A(λ) is a predetermined coefficient depending on the wavelength of the incident light, θ the angle between the optical axis of the incident light and the normal to the entrance surface of the filter element, and T the thickness in terms of a medium depending on the refractive indexes of the high refractive index layer and the low refractive index layer making up a multilayer film of the filter element.
    • 公开了一种光复用器/解复用器及其制造方法,其中芯片布置在滤光元件的每一侧上,并且使光从芯中的一个芯进入滤光元件,而不使用准直透镜。 通过优化两侧的芯的轴向位移量来减少透射光的损失。 位于过滤元件26两侧的芯21,23的光轴位移三角形。 该轴向移动量Δδ被确定为A(λ).T.tanθ,其中A(λ)是取决于入射光的波长的预定系数,θ是入射光的光轴与正常光轴之间的角度 到达滤色器元件的入射面,T是介质的厚度,取决于构成过滤元件的多层膜的高折射率层和低折射率层的折射率。