Multifiber connector, a method of manufacturing the same, and a
construction for connecting the multifiber connector to an optical
device
    1.
    发明授权
    Multifiber connector, a method of manufacturing the same, and a construction for connecting the multifiber connector to an optical device 失效
    多纤维连接器,其制造方法以及用于将多纤维连接器连接到光学装置的结构

    公开(公告)号:US5548675A

    公开(公告)日:1996-08-20

    申请号:US335769

    申请日:1994-11-08

    摘要: An optical fiber end portion (10) which has a ferrule (11) which comprises a butting end face (11e) opposed to or butted against an optical device (20), and a single fiber hole or a plurality of fiber holes formed in parallel at predetermined intervals, into which one end of optical fiber (13a) is inserted, the optical fiber being optically connected to said optical device, a method for manufacturing the optical fiber end portion, and a construction for connecting the end portion to the optical device. The ferrule is formed of a molded product of synthetic resin, and is provided with at least one connecting member (12) on the side of butting end face connected to the optical device. The connecting member (12) has a linear expansion coefficient set at a value smaller than the linear expansion coefficient of a synthetic resin forming the ferrule.

    摘要翻译: PCT No.PCT / JP94 / 00536 Sec。 371日期:1994年11月8日 102(e)1994年11月8日日期PCT 1994年3月31日PCT公布。 公开号WO94 / 23321 日期:1994年10月13日具有套圈(11)的光纤端部(10),其包括与光学元件(20)相对或对接的对接端面(11e),以及单个光纤孔 以预定间隔平行地形成的光纤孔,光纤(13a)的一端插入其中,光纤与所述光学装置光学连接,制造光纤端部的方法和用于连接端部的结构 部分到光学装置。 套圈由合成树脂的模制产品形成,并且在与光学装置连接的对接端面的侧面上设置有至少一个连接构件(12)。 连接构件(12)的线膨胀系数设定为小于形成套圈的合成树脂的线膨胀系数的值。

    Method of connecting optical waveguide and optical fiber
    2.
    发明授权
    Method of connecting optical waveguide and optical fiber 失效
    连接光波导和光纤的方法

    公开(公告)号:US5361382A

    公开(公告)日:1994-11-01

    申请号:US966147

    申请日:1993-01-07

    IPC分类号: G02B6/30 G02B6/38

    摘要: A method of connecting waveguides and optical fibers includes the steps of forming the waveguides and a marker at the same time on a waveguide substrate when patterning the waveguides by a photolithography method, forming a clad layer on a region other than another region when the marker is formed so as to embed the waveguides, and forming a fitting pin groove at a position corresponding to a position of the marker. By using this fitting pin groove, a waveguide module and an optical fiber connector are connected so as to connect each of the waveguides and each of the optical fibers with each other. With this method, waveguides and optical fibers can be aligned and connected with each other easily and in a short period of time without employing an expensive aligning device.

    摘要翻译: PCT No.PCT / JP92 / 00643 Sec。 371日期:1993年1月7日 102(e)日期1993年1月7日PCT提交1992年5月20日PCT公布。 出版物WO92 / 21047 日期:1992年11月26日。一种连接波导和光纤的方法包括以下步骤:在通过光刻法对波导进行图案化时在波导基板上同时形成波导和标记物,在其它区域上形成覆盖层 比标记物形成为嵌入波导时的另一区域,并且在与标记的位置对应的位置处形成嵌合销槽。 通过使用该嵌合销槽,连接波导模块和光纤连接器,以将每个波导和每个光纤彼此连接。 利用这种方法,波导和光纤可以容易地并且在短时间内彼此对准和连接,而不需要使用昂贵的对准装置。

    Optical line monitoring method and an apparatus permitting simultaneous
line monitoring and information communication
    3.
    发明授权
    Optical line monitoring method and an apparatus permitting simultaneous line monitoring and information communication 失效
    光线路监控方法和允许同时进行线路监控和信息通信的设备

    公开(公告)号:US5396569A

    公开(公告)日:1995-03-07

    申请号:US130354

    申请日:1993-10-01

    摘要: An optical line monitoring method and an apparatus for locating a failure point in an optical communication system, wherein a plurality of types of inspection light rays having wavelengths which are determined by cut-off wavelengths, which differ from each other, of short-wavelength pass filters installed at a plurality of branched ports of an optical coupler/splitter of the communication system are sent from a light source having variable wavelengths into one or more corresponding optical fiber lines of the system in sequence via an optical directional coupler and the optical coupler/splitter. Each time reflected light, corresponding to the inspection light, from one or more optical fiber lines is received, an output representing the intensity level of the reflected light is sent from a light receiver to an arithmetic circuit and stored in the arithmetic circuit. The arithmetic circuit calculates the reflected light intensity levels which correspond to the individual optical fiber lines according to the light receiver outputs which individually correspond to inspection light rays, whereby the position of the failure in the optical fiber line incurring the failure is identified.

    摘要翻译: 一种用于定位光通信系统中的故障点的光线监视方法和装置,其中具有短波长通过的彼此不同的截止波长确定的波长的多种类型的检查光线 安装在通信系统的光耦合器/分离器的多个分支端口处的滤波器从具有可变波长的光源经由光学定向耦合器和光耦合器/光耦合器顺序地发送到系统的一个或多个对应的光纤线路中, 分离器 每次接收到来自一个或多个光纤线路的反射光,对应于检查光的反射光,表示反射光的强度水平的输出从光接收器发送到运算电路并存储在运算电路中。 算术电路根据与检测光线分别对应的光接收器输出,计算与各个光纤线路对应的反射光强度水平,从而识别出导致故障的光纤线路中的故障位置。

    Method of positioning elements of an optical integrated circuit
    4.
    发明授权
    Method of positioning elements of an optical integrated circuit 失效
    定位光集成电路元件的方法

    公开(公告)号:US5529595A

    公开(公告)日:1996-06-25

    申请号:US441602

    申请日:1995-05-15

    IPC分类号: G02B6/13 C03B19/14

    CPC分类号: G02B6/13 Y10S148/102

    摘要: The present invention provides a method of manufacturing an optical component, having the steps of forming a first position aligning pattern on a surface of a substrate, forming a second position aligning recess-projection pattern conforming with the first position aligning pattern and a third position aligning recess-projection pattern having a predetermined positional relationship with the second position aligning recess-projection pattern, and applying a predetermined processing with the third position aligning recess-projection pattern used as a reference under a predetermined positional relationship with the first position aligning pattern.

    摘要翻译: 本发明提供了一种制造光学部件的方法,其具有以下步骤:在基板的表面上形成第一位置对准图形,形成与第一位置对准图形相符合的第二位置对准凹凸图案和第三位置对准 具有与第二位置对准凹凸图案的预定位置关系的凹凸图案,并且以与第一位置对准图案预定位置关系为基准的第三位置对齐凹凸图案进行预定处理。

    Method of connecting an optical fiber to an optical waveguide
    5.
    发明授权
    Method of connecting an optical fiber to an optical waveguide 失效
    将光纤连接到光波导的方法

    公开(公告)号:US5297228A

    公开(公告)日:1994-03-22

    申请号:US63005

    申请日:1993-05-17

    IPC分类号: G02B6/30 G02B6/42

    摘要: A method of connecting an optical fiber to a planar optical waveguide is provided in which an end face of a waveguide chip in which planar optical waveguides are formed is abutted against an end face of a fiber aligning jig on which optical fibers are arranged, to thereby connect the optical fiber to the corresponding planar optical waveguide. At least one marker is formed in each of the waveguide chip and the fiber aligning jig, and also at least one pin guide groove is formed in each of the waveguide chip and the fiber aligning jig, using the marker as a reference mark. The markers of the waveguide chip and the fiber aligning jig are aligned with each other along optical axes of the planar optical waveguides when the waveguide chip and the fiber aligning jig are abutted against each other. Further, fiber guide grooves are formed in the fiber aligning jig, using the marker as a reference mark. The waveguide chip and the fiber aligning jig are abutted against each other, and the planar optical waveguide and the optical fiber are aligned with each other by means of a common guide pin laid along the corresponding pin guide grooves.

    摘要翻译: 提供一种将光纤连接到平面光波导的方法,其中形成有平面光波导的波导芯片的端面抵靠在其上布置有光纤的光纤对准夹具的端面,从而 将光纤连接到相应的平面光波导。 在每个波导芯片和光纤对准夹具中形成至少一个标记,并且使用该标记作为参考标记,还在波导芯片和光纤对准夹具的每一个中形成至少一个引脚引导槽。 当波导芯片和光纤对准夹具彼此抵接时​​,波导芯片和光纤对准夹具的标记物沿着平面光波导的光轴彼此对准。 此外,使用标记作为参考标记,在纤维取向夹具中形成纤维引导槽。 波导芯片和光纤对准夹具彼此抵接,并且平面光波导和光纤通过沿着相应的引脚引导槽布置的公共导销彼此对准。

    Composite optical device
    6.
    发明授权
    Composite optical device 失效
    复合光学器件

    公开(公告)号:US5583958A

    公开(公告)日:1996-12-10

    申请号:US532418

    申请日:1995-09-22

    CPC分类号: G02B6/125 G02B6/30

    摘要: A composite optical device has a first and second chips. The first chip has a substrate on which M pieces of optical waveguides for transmitting communication light, N pieces of optical waveguides for transmitting monitoring light and M-input/N-output star couplers are formed in an integrated form, and the second chip has a substrate on which N pieces of optical waveguides for transmitting communication light, N pieces of optical waveguides for transmitting monitoring light and N pieces of 2-input/2-output star couplers are formed in an integrated form. A first and second blocks holding optical fibers are joined respectively to the first and second chips. When the composite optical device in which the first and second blocks and the first and second chips are joined is incorporated into the optical communication system, a passive double star system is constructed. By using an MT connector instead of the first block and the first chip, a single star system can be rapidly constructed.

    摘要翻译: 复合光学器件具有第一和第二芯片。 第一芯片具有基板,其上形成有用于传输通信光的M个光波导,用于传输监视光的N条光波导和M输入/ N输出星形耦合器,并且第二芯片具有 其上形成有用于发送通信光的N条光波导,用于发送监视光的N条光波导和N个2输入/ 2输出星形耦合器的基板。 保持光纤的第一和第二块分别连接到第一和第二芯片。 当将第一和第二块以及第一和第二芯片接合的复合光学装置并入到光通信系统中时,构成无源双星系统。 通过使用MT连接器代替第一块和第一芯片,可以快速构建单个星系。

    Waveguide-type coupler/splitter
    7.
    发明授权
    Waveguide-type coupler/splitter 失效
    波导型耦合器/分离器

    公开(公告)号:US5179604A

    公开(公告)日:1993-01-12

    申请号:US813968

    申请日:1991-12-24

    IPC分类号: G02B6/122 G02B6/28 G02B6/34

    CPC分类号: G02B6/2804 G02B6/29361

    摘要: A 2-input/2-output directional coupler is arranged as an element coupler/splitter for a first stage, and 1-input/2-output coupler/splitters are used as element coupler/splitters for a second stage and subsequent stages. Output ports of these element coupler/splitters are concatenated with input ports of other element coupler/splitters to form a 2-input/multi-output coupler/splitter. An optical signal can be inputted through one input port of the first-stage 2-input/2-output directional coupler, and an optical signal for optical line monitoring can be inputted through the other input port. It is unnecessary, therefore, to use an optical wavelength division multiplexer/demultiplexer or other optical part which conventionally is connected at the time of optical line monitoring.

    Optical waveguide component and a light signal processing method using
the same
    8.
    发明授权
    Optical waveguide component and a light signal processing method using the same 失效
    光波导部件及使用其的光信号处理方法

    公开(公告)号:US5649037A

    公开(公告)日:1997-07-15

    申请号:US509759

    申请日:1995-08-03

    摘要: An optical waveguide component includes at least one main waveguide through which signal light and regenerating light propagate and a branch waveguide branching from the main waveguide, which are formed on the same substrate; a filter element disposed at a branch portion of these waveguides; and a plurality of reflecting elements having two reflecting faces, which are arranged in the extending direction of the branch waveguide. In the optical waveguide component, one reflecting face of the two reflecting faces is a face for reflecting the regenerating light to the filter element, and the other face is a face for reflecting the regenerating light to the direction deviating from the light axis direction of the branch waveguide, or the intervals between the reflecting elements are different from each other. This optical waveguide component enables the time-series signal processing of regenerating light to be performed accurately.

    摘要翻译: 光波导部件包括至少一个主波导,信号光和再生光通过该主波导传播,以及从主波导分支的分支波导,形成在同一基板上; 设置在这些波导的分支部的滤波器元件; 以及多个反射元件,其具有沿着分支波导的延伸方向配置的两个反射面。 在光波导部件中,两个反射面的一个反射面是用于将再生光反射到滤光元件的面,另一个面是用于将再生光反射到偏离光源的光轴方向的面 分支波导,或者反射元件之间的间隔彼此不同。 该光波导部件能够准确地进行再生光的时间序列信号处理。

    Optical coupler/splitter with a filter
    9.
    发明授权
    Optical coupler/splitter with a filter 失效
    带滤光片的光耦合器/分离器

    公开(公告)号:US5214725A

    公开(公告)日:1993-05-25

    申请号:US891424

    申请日:1992-05-29

    CPC分类号: G02B6/29368

    摘要: An optical coupler/splitter having an optical waveguide on the side of light incidence, two optical waveguides on the branched side, branched from the former optical waveguide and each having straight and curved sections, and a dielectric multi-layer film filter provided in a manner crossing the latter waveguides and common to them. The filter is so formed as to intersect with a straight section of one waveguide and with a curved section of the other, so that respective crossing angles between the filter and the branched optical waveguides differ from each other, thereby providing different reflection or transmission characteristics with respect to the branched optical waveguides. An optical signal having a variable wavelength and issued from a measuring apparatus based on the backscattering method is distinguished by the common filter of the coupler/splitter, making it possible to perform measurement of the losses of the branched optical waveguides independently without being affected by interference light. There is no need to provide a plurality of filters having different characteristics, and thus the coupler/splitter has a simplified structure and excellent productivity.

    Optical fiber/terminal connecting device
    10.
    发明授权
    Optical fiber/terminal connecting device 失效
    光纤/终端连接装置

    公开(公告)号:US5390267A

    公开(公告)日:1995-02-14

    申请号:US184781

    申请日:1994-01-21

    IPC分类号: G02B6/28 G02B6/30 G02B6/38

    CPC分类号: G02B6/28 G02B6/30 G02B6/3885

    摘要: An optical connecting device including an optical waveguide substrate having a plurality of optical waveguides, at least two fiber arranging members connected to at least one connecting end surface of the optical waveguide substrate, and an optical fiber disposed in the position controlling means of the fiber arranging members, wherein the connecting end surfaces of the optical wave guides and the optical fiber are brought in contact with each other, thereby the optical waveguides and the optical fiber are optically connected to each other. An optical connecting device including a first optical connector having a plurality of hole groups formed of a first fiber through hole and a pair of first positioning pin holes provided in both sides of the first fiber through hole, and a first optical fiber inserted into the first through hole such that its connecting end surface is exposed, a plurality of second optical connectors having a second fiber through hole and a pair of second positioning pin holes provided in both sides of the second fiber through hole, and a second optical fiber inserted into the second through hole such that its connecting end surface is exposed, and positioning pins inserted into first and second positioning pin holes, wherein the connecting end surfaces of of the first and second optical connectors are brought into contact with each other.

    摘要翻译: 一种光连接装置,包括具有多个光波导的光波导基板,连接到光波导基板的至少一个连接端面的至少两个光纤排列构件,以及布置在光纤布置的位置控制装置中的光纤 其中光波导和光纤的连接端面彼此接触,从而使光波导和光纤彼此光学连接。 一种光学连接装置,包括具有由第一光纤通孔形成的多个孔组的第一光学连接器和设置在第一光纤通孔的两侧的一对第一定位销孔,以及插入到第一光纤通孔中的第一光纤 通孔,使得其连接端面露出,具有第二纤维通孔的多个第二光连接器和设置在第二光纤通孔两侧的一对第二定位销孔,以及插入到第二光纤通孔中的第二光纤 第二通孔使得其连接端面露出,并且定位销插入第一和第二定位销孔中,其中第一和第二光学连接器的连接端表面彼此接触。