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    • 1. 发明授权
    • Multiplexer for use with a device for optically analyzing a sample
    • 用于光学分析样品的设备的多路复用器
    • US5287423A
    • 1994-02-15
    • US647631
    • 1991-01-31
    • Michael Anthony
    • Michael Anthony
    • G01J3/08G01N21/25G02B6/36G02B7/26
    • G01J3/08G01N21/255G02B6/3604
    • The present invention is a multiplexer for use with an apparatus for optically analyzing a sample. This multiplexer includes a body portion having a primary inlet port. The light received through the light inlet port is sent through a first fiber optic bundle which may be rotated by a fiber carriage to any of several outlet fiber couplers which may be connected to various samples. A position optical sensor assures proper alignment between the first fiber optic bundle and the fiber couplers by sensing the position of a chopper disc which is mounted to the rotating fiber carriage. Once light is passed through the sample, it is passed back into the multiplexer through inlet fiber couplers. These additional fiber couplers are linked to a second fiber optic bundle leading to a detector fiber coupler which may be connected to a fixed fiber cable.
    • 本发明是一种与用于光学分析样品的装置一起使用的多路复用器。 该多路复用器包括具有主入口的主体部分。 通过光入口接收的光被传送通过第一光纤束,其可以被纤维托架旋转到可以连接到各种样品的多个出口光纤耦合器中的任何一个。 位置光学传感器通过感测安装到旋转的纤维托架上的斩波盘的位置来确保第一光纤束和光纤耦合器之间的正确对准。 一旦光通过样品,它将通过入口光纤耦合器传回多路复用器。 这些额外的光纤耦合器被连接到通向可以连接到固定光纤电缆的检测器光纤耦合器的第二光纤束。
    • 2. 发明授权
    • Optical fiber expanded beam coupler
    • 光纤扩束光耦合器
    • US5257332A
    • 1993-10-26
    • US941289
    • 1992-09-04
    • Richard J. Pimpinella
    • Richard J. Pimpinella
    • G02B6/32G02B6/38G02B7/02G02B7/26G02B6/26
    • G02B6/32G02B7/02G02B6/3841G02B6/3842
    • Precise axial alignment of fibers to be connected is achieved with a male-to-male arrangement consisting of substantially identical fiber-receiving substrates and a coupler element which takes several configurations. A lensing element such as a ball/sphere is positioned in a well placed directly beyond a precision V-groove formed on a substrate surface, so that the fiber axes extend through substantially the center of the lensing element and are coaxial. The coupler contains a fiber-aligning V-groove and reference surface zones that interact in various ways with two ball-alignment elements of the substrates, to maintain critical substrate surfaces parallel to and precisely spaced from the coupler's reference surfaces.
    • 要连接的光纤的精确轴向对准由具有基本上相同的光纤接收基板和耦合器元件组成的阳对阳设备实现,其具有几种配置。 诸如球/球的透镜元件定位在直接超过形成在基板表面上的精密V形槽的阱中,使得光纤轴基本上延伸穿过透镜元件的中心并且是同轴的。 耦合器包含光纤对准V形沟槽和参考表面区域,其以各种方式与衬底的两个球对准元件相互作用,以保持关键衬底表面与耦合器的参考表面平行且精确地间隔开。
    • 3. 发明授权
    • Rematable optical splice utilizing rods with resilient coating
    • 利用具有弹性涂层的杆的可更换光学接头
    • US4787704A
    • 1988-11-29
    • US80239
    • 1987-07-27
    • Dennis M. KnechtDavid L. Dean
    • Dennis M. KnechtDavid L. Dean
    • G02B6/38G02B7/26
    • G02B6/3805G02B6/3806G02B6/3846G02B6/3887G02B6/3802G02B6/3894G02B6/3898
    • A first embodiment of an optical splice having a frame with a channel; two rods each having a resilient exterior surface disposed in the channel; and a lid adapted to be received on the frame over the channel, the lid having a resilient surface adapted to allow compression of optical fibers placed end to end for splicing between the rods by the lid and the rods. The frame and lid are placed within a tubular housing and a tubular sleeve which is attached at the ends following insertion of the optical fibers. An additional embodiment of an optical splice contains first tube, a ferrule and an optical fiber, the optical fiber having first and second portions, the optical fiber first portion disposed inside of and affixed to the ferrule and the optical fiber second portion lying outside of the ferrule and inside of the first tube and a portion of the ferrule disposed inside of and affixed to the first tube; an alignment device and a second tube, both of which are disposed in the first tube; another optical fiber having a terminal end portion, the terminal end portion disposed in the second tube and said alignment device; and, a housing-coupling device affixed to the first tube, the housing-coupling device adapted to be removably coupled to a receiving device.
    • 具有具有通道的框架的光接头的第一实施例; 每个具有布置在通道中的弹性外表面的两个杆; 以及适于被容纳在所述通道上的所述框架上的盖子,所述盖子具有弹性表面,所述弹性表面适于允许端对端的光纤的压缩,以通过所述盖子和所述杆来在所述杆之间进行拼接。 框架和盖子放置在管状壳体和管状套筒中,管状套筒在插入光纤后在端部附接。 光接头的另外的实施例包含第一管,套圈和光纤,该光纤具有第一和第二部分,光纤第一部分设置在套管的内部并固定到套圈上,光纤第二部分位于 套圈和第一管的内部,并且套圈的一部分设置在第一管的内部并固定到第一管; 对准装置和第二管,它们都设置在第一管中; 另一光纤具有终端部分,终端部分设置在第二管和对准装置中; 以及固定到所述第一管的壳体耦合装置,所述壳体耦合装置适于可拆卸地联接到接收装置。
    • 4. 发明授权
    • Protective tube arrangement for a glass fiber
    • 用于玻璃纤维的保护管布置
    • US4687290A
    • 1987-08-18
    • US701974
    • 1985-02-15
    • Herbert Prussas
    • Herbert Prussas
    • G02B6/00G02B6/42G02B7/26G02B7/00
    • G02B6/4236G02B6/4237
    • A protective tube arrangement particularly useful for positioning the end of a glass fiber relative to an opto-electronic component of a module having a housing, which housing engages the protective tube characterized by the glass fiber being secured to the tube at two axially spaced locations with the length of the fiber extending between the two locations and the distance of the tube between the locations being selected so that the fiber has a greater length than the distance for all temperatures below a maximum temperature limit. Thus, the fiber is not subjected to tensile stresses and the distance between the two locations on the tube and the length of the fiber are selected so that the compressive stresses are below 1 N/mm.sup.2 for all temperature ranges between the maximum temperature limit and the minimum temperature limit. The method for securing the fiber in the tube can either be by forming both connections simultaneously or in sequence but forming them at a temperature greater than the maximum temperature limit so that after forming the connection and cooling to the maximum temperature limit or therebelow, the fiber between the two connecting locations will not be subjected to tensile stresses.
    • 一种保护管装置,特别用于相对于具有壳体的模块的光电元件的端部定位玻璃纤维的端部,该壳体接合保护管,其特征在于玻璃纤维在两个轴向间隔开的位置处固定到管上, 在两个位置之间延伸的纤维的长度和在选择的位置之间的管的距离,使得光纤具有比所有温度低于最高温度极限的距离更长的长度。 因此,纤维不受拉伸应力,并且选择管上的两个位置和纤维的长度之间的距离,使得在最高温度极限和最高温度极限之间的所有温度范围内,压缩应力低于1N / mm2 最低温度限制。 用于将光纤固定在管中的方法可以是通过同时或按顺序形成两个连接,但是在大于最大温度极限的温度下形成它们,使得在形成连接并冷却到最高温度极限之后,纤维 两个连接位置之间不会受到拉伸应力。
    • 7. 发明授权
    • Passive fiber optic multiplexer
    • 被动光纤复用器
    • US4556279A
    • 1985-12-03
    • US319301
    • 1981-11-09
    • Herbert J. ShawMichel J. F. Digonnet
    • Herbert J. ShawMichel J. F. Digonnet
    • G02B6/24G02B6/28G02B6/34G02B27/10G02B7/26
    • G02B6/29332G02B6/2826G02B6/283G02B6/2938G02B6/29395
    • A passive, frequency selective, fiber optic multiplexer, comprises a directional coupler in which a pair of single mode optical fibers are accurately positioned to provide evanescent field coupling, typically by polishing a portion of the cladding from each of said fibers to place the respective cores of said fibers within the evanescent field of light in the other fiber. The coupling efficiency of a coupler constructed in this manner is wavelength dependent, and provides over-coupling, that is, the capability of transferring light, virtually entirely, back and forth between the fibers within the coupler. The wavelength dependent nature of the evanescent field coupling permits multiplexing, specifically between a pair of wavelengths, one of which is coupled in its entirety from a first fiber to a second fiber, and the other of which is essentially uncoupled. By increasing the number of total transfers of the light signals between the pair of fibers, the frequency resolution of the multiplexer may be optimized for light signals of virtually any frequency separation.
    • 无源频率选择性光纤多路复用器包括定向耦合器,其中一对单模光纤被精确地定位以提供渐逝场耦合,通常通过从每个所述光纤抛光一部分包层以放置相应的芯 的纤维在另一纤维中的消逝光场内。 以这种方式构造的耦合器的耦合效率是波长相关的,并且提供过耦合,即在耦合器内的光纤之间实际上完全传输光的能力。 消逝场耦合的波长依赖性允许多路复用,特别是在一对波长之间进行多路复用,其中一个波长的整体由第一光纤耦合到第二光纤,另一个基本上是耦合的。 通过增加一对光纤之间的光信号的总传输次数,多路复用器的频率分辨率可以针对几乎任何频率间隔的光信号进行优化。
    • 10. 发明授权
    • Splice casing assembly
    • 接头套管组件
    • US4512628A
    • 1985-04-23
    • US499642
    • 1983-05-31
    • John J. Anderton
    • John J. Anderton
    • G02B6/44G02B7/26
    • G02B6/444
    • A splice casing assembly for an elongated splice housing assembly and associated fiber optic cables includes a mounting insert disposed within a substantially tubular casing. A particularized mounting insert is characterized by a rectangular platform portion for supporting the splice housing assembly and by disklike end portions for positioning the insert within the tubular casing. Each of a pair of casing plugs comprises a threaded portion for fastening the plug at an end of the tubular casing and a tapered portion into which a fiber optic connector is threaded. Each of the connectors, a pair are included, comprises a threaded portion, a hexagonal gripping portion, a major cylindrical portion, and a minor cylindrical portion disposed between the hexagonal gripping portion and the major cylindrical portion. The casing assembly is configured so that fiber optic cables, supported by the connectors, may be routed through the connector, through the plug casings and into the splice housing assembly.
    • 用于细长接头壳体组件和相关联的光纤电缆的接头壳体组件包括设置在基本上管状的壳体内的安装插入件。 特殊的安装插入件的特征在于用于支撑接头壳体组件的矩形平台部分和用于将插入件定位在管状壳体内的盘状端部。 一对套管插头中的每一个包括用于将插头紧固在管状壳体的端部的螺纹部分和光纤连接器穿过的锥形部分。 每个连接器包括一对,包括螺纹部分,六边形夹持部分,主圆柱形部分和设置在六边形夹持部分和主圆柱形部分之间的次要圆柱形部分。 壳体组件被配置为使得由连接器支撑的光纤电缆可以通过连接器穿过插头壳体并进入接头壳体组件。