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    • 1. 发明授权
    • Phase sensitive spectrum analyzer
    • 相敏频谱分析仪
    • US4297704A
    • 1981-10-27
    • US66199
    • 1979-08-13
    • Emanuel MaromMichael K. BarnoskiRichard L. Abrams
    • Emanuel MaromMichael K. BarnoskiRichard L. Abrams
    • G01R23/17G01S3/14G01S5/02G01B9/02G01R23/16G02B5/14
    • G01R23/17G01S3/14
    • Apparatus is provided comprising a laser source, collimating optics for collimating light provided by the laser source, focusing optics for focusing the collimated light provided by the collimating optics, and a detector array disposed at the focal plane of the focusing optics. Two surface acoustic wave transducers are disposed adjacent to one another and adjacent to an optical path between the collimating and focusing optics. The surface acoustic wave transducers are individually connected to antennas which are oriented substantially parallel to one another. The surface acoustic wave transducers launch surface acoustic waves which interact with the laser light and cause the light to be deflected in proportion to the amplitude and frequency of signals applied to the surface acoustic wave transducers by the antennas. The beams deflected by the two surface acoustic waves result in an interference pattern created at the detector array. A microcomputer is provided and coupled to the detector array for comparing the amplitude of the main sidelobes of the interference pattern which is indicative of the direction of arrival of energy received by the two antennas.
    • 提供了包括激光源,用于准直由激光源提供的光的准直光学器件,用于聚焦由准直光学器件提供的准直光的聚焦光学器件和设置在聚焦光学器件的焦平面处的检测器阵列的装置。 两个表面声波换能器彼此相邻设置并且邻近准直和聚焦光学器件之间的光路。 表面声波换能器分别连接到彼此基本平行取向的天线。 表面声波传感器发射与激光相互作用的表面声波,并且使得光被与天线施加到表面声波换能器的信号的幅度和频率成比例地偏转。 由两个表面声波偏转的光束导致在检测器阵列处产生的干涉图案。 提供微型计算机并耦合到检测器阵列,用于比较表示由两个天线接收的能量的到达方向的干扰图案的主旁瓣的幅度。
    • 2. 发明授权
    • Optical fiber connector ferrule having open fiber clamping grooves
    • 光纤连接器套圈具有开放的纤维夹紧槽
    • US08961034B2
    • 2015-02-24
    • US13440970
    • 2012-04-05
    • Shuhe LiRobert Ryan VallanceMichael K. Barnoski
    • Shuhe LiRobert Ryan VallanceMichael K. Barnoski
    • G02B6/36G02B6/38
    • G02B6/3839G02B6/364G02B6/3858G02B6/3885
    • A ferrule for an optical fiber connector having open fiber clamping grooves. The ferrule has a body having a plurality of open grooves for clamping the terminating end sections of optical fibers. At least a section of the longitudinal opening of the groove is provided with opposing lips to provide a clamping effect. The width of the longitudinal opening defined between the lips along at least a section of the grooves is narrower than the diameter of the optical fibers to create a tight fit. The grooves and the width of the longitudinal groove openings are shaped and sized to retain the fibers without any clearance to allow for movement of the fiber relative to the groove. Similar grooves may be provided in the ferrule body for alignment guide pins. The grooves are precision formed by high throughput processes, such as stamping and extrusion.
    • 一种用于具有开放的纤维夹紧槽的光纤连接器的套圈。 套圈具有主体,该主体具有用于夹紧光纤的终端部分的多个开口槽。 槽的纵向开口的至少一部分设置有相对的唇缘以提供夹紧效果。 沿着凹槽的至少一部分限定在唇缘之间的纵向开口的宽度比光纤的直径窄,以产生紧密配合。 凹槽和纵向凹槽开口的宽度被成形和定尺寸以保持纤维而没有任何间隙以允许纤维相对于凹槽移动。 可以在套圈主体中设置类似的槽,用于对准导向销。 槽通过高通量工艺(如冲压和挤压)精确地形成。
    • 3. 发明授权
    • Fiber optics access coupler
    • 光纤接入耦合器
    • US4054366A
    • 1977-10-18
    • US704274
    • 1976-07-12
    • Michael K. BarnoskiHoward R. FriedrichRobert J. Morrison
    • Michael K. BarnoskiHoward R. FriedrichRobert J. Morrison
    • G02B6/28H04B10/213G02B5/14
    • G02B6/2856G02B6/2835
    • There is disclosed a fiber optic coupler for use in single strand fiber systems comprising a device to allow optical access to a single fiber by means of a second fiber which has been attached to it by fusing the glass cladding of the two fibers as by application of heat by a laser. The resulting access coupler provides for coupling both into and out of a single strand of fiber optic waveguide. That is to say, an input optical signal to one single fiber strand can be read out at more than one point on the single fiber or more than one input can be read out at a single point. The coupler is sufficiently low loss to make control systems utilizing single fiber lines rather than bundles a realistic possibility.
    • 公开了一种用于单股纤维系统的光纤耦合器,其包括通过借助于通过将两根纤维的玻璃包层熔合在一起的第二纤维来光纤接入单个纤维的装置, 激光加热。 所得到的接入耦合器提供耦合到单条光纤波导中和从光纤波导的单股耦合。 也就是说,可以在单个光纤上的多于一个点处读出到单个光纤线的输入光信号,或者可以在单个点读出多于一个的输入。 耦合器具有足够的损耗,以使得使用单个光纤线路的控制系统而不是束缚现实的可能性。
    • 4. 发明授权
    • Deterministic cleave of optical fiber
    • 光纤的确定性切割
    • US08740029B2
    • 2014-06-03
    • US13171435
    • 2011-06-28
    • Michael K. BarnoskiSuresh T. GulatiKing-Fu HiiDonald KeckWilliam R. PowellR. Ryan Vallance
    • Michael K. BarnoskiSuresh T. GulatiKing-Fu HiiDonald KeckWilliam R. PowellR. Ryan Vallance
    • B26F3/00
    • G02B6/25Y10T225/12Y10T225/321Y10T225/325
    • Axial tension is applied to an optical fiber that had been scored at the intended cleave location, wherein the axial tension is applied in a time-varying manner to maintain the stress intensity factor for crack on the fiber within an acceptable level to produce a stable crack growth at a reasonable rate to cleave the fiber without requiring polishing of the end surface. Careful control of the applied tension force with time acts to control the velocity of the propagating crack by maintaining substantially constant stress intensity factor. The applied axial tension force is reduced with time and/or crack growth (as crack propagates). As a result, the strain energy in the fiber material is released by formation of a single plane with an optical quality surface without requiring polishing. A substantially flat optical surface of enhanced optical quality is formed at the cleaved end of the optical fiber.
    • 将轴向张力施加到在预定的切割位置刻痕的光纤,其中以时变方式施加轴向张力,以将纤维上的裂纹的应力强度因子保持在可接受的水平内以产生稳定的裂纹 以合理的速率生长以切割纤维而不需要抛光端面。 随着时间的推移,仔细控制施加的拉力可以通过保持基本上恒定的应力强度因子来控制传播裂纹的速度。 所施加的轴向拉力随着时间和/或裂纹扩展而减小(如裂纹扩展)。 结果,通过形成具有光学质量表面的单个平面而不需要抛光来释放纤维材料中的应变能。 在光纤的切割端形成基本平坦的光学质量的光学表面。
    • 6. 发明授权
    • Microbending of optical fibers for remote force measurement
    • 用于远程力测量的光纤的微弯曲
    • US4463254A
    • 1984-07-31
    • US297058
    • 1981-08-27
    • Charles K. AsawaMichael K. BarnoskiShi-Kay Yao
    • Charles K. AsawaMichael K. BarnoskiShi-Kay Yao
    • G01L1/24
    • G01L1/245
    • A system for remote measurement of structural forces includes a plurality of microbend transducers mounted along the length of the structure for microbending an optical fiber in response to structural forces, such as stress acting upon an oil or gas pipeline or the like. An optical time domain reflectometer (OTDR) has a light source for launching a pulsed optical signal for passage through the fiber and a photodetector for sensing as a function of time the intensity of backscattered light reflected back through the fiber, wherein this sensed time function is correlated directly with discrete longitudinal positions along the length of the fiber and the structure. When one or more of the microband transducers is activated to induce a microbend in the fiber in response to localized forces acting upon the structure, a portion of the backscattered light is lost at the microbend. This attenuation in backscattered light intensity is sensed quantitatively and positionally identified by the photodetector. Specific preferred constructions for microbend transducers and system arrangements particularly adapted for detecting structural strain in an oil or gas pipeline are disclosed.
    • 用于远程测量结构力的系统包括沿着结构的长度安装的多个微弯曲换能器,用于响应于结构力(例如作用在油或气体管线等上的应力)而微纤维弯曲光纤。 光学时域反射计(OTDR)具有用于发射用于通过光纤的脉冲光信号的光源和用于感测作为时间的函数的光电检测器,通过光纤反射回反向散射光的强度,其中该感测时间函数为 与纤维长度和结构的离散纵向位置直接相关。 当一个或多个微带换能器被激活以响应于作用在结构上的局部力引起纤维中的微弯曲时,部分后向散射光在微弯处丧失。 反射散射光强度中的衰减由光电检测器定量和位置地识别。 公开了用于微弯传感器和特别适用于检测油或气管线中的结构应变的系统布置的特定优选结构。
    • 7. 发明申请
    • OPTICAL FIBER CONNECTOR FERRULE HAVING OPEN FIBER CLAMPING GROOVES
    • 具有开放光纤夹具的光纤连接器芯片
    • US20120257860A1
    • 2012-10-11
    • US13440970
    • 2012-04-05
    • Shuhe LIRobert Ryan VallanceMichael K. Barnoski
    • Shuhe LIRobert Ryan VallanceMichael K. Barnoski
    • G02B6/36B21D22/00
    • G02B6/3839G02B6/364G02B6/3858G02B6/3885
    • A ferrule for an optical fiber connector having open fiber clamping grooves. The ferrule has a body having a plurality of open grooves for clamping the terminating end sections of optical fibers. At least a section of the longitudinal opening of the groove is provided with opposing lips to provide a clamping effect. The width of the longitudinal opening defined between the lips along at least a section of the grooves is narrower than the diameter of the optical fibers to create a tight fit. The grooves and the width of the longitudinal groove openings are shaped and sized to retain the fibers without any clearance to allow for movement of the fiber relative to the groove. Similar grooves may be provided in the ferrule body for alignment guide pins. The grooves are precision formed by high throughput processes, such as stamping and extrusion.
    • 一种用于具有开放的纤维夹紧槽的光纤连接器的套圈。 套圈具有主体,该主体具有用于夹紧光纤的终端部分的多个开口槽。 槽的纵向开口的至少一部分设置有相对的唇缘以提供夹紧效果。 沿着凹槽的至少一部分限定在唇缘之间的纵向开口的宽度比光纤的直径窄,以产生紧密配合。 凹槽和纵向凹槽开口的宽度被成形和定尺寸以保持纤维而没有任何间隙以允许纤维相对于凹槽移动。 可以在套圈主体中设置类似的槽,用于对准导向销。 槽通过高通量工艺(如冲压和挤压)精确地形成。
    • 9. 发明授权
    • Microbending of optical fibers for remote force measurement
    • 用于远程力测量的光纤的微弯曲
    • US4459477A
    • 1984-07-10
    • US297051
    • 1981-08-27
    • Charles K. AsawaJoseph W. AustinMichael K. BarnoskiStewart D. PersonickShi-Kay Yao
    • Charles K. AsawaJoseph W. AustinMichael K. BarnoskiStewart D. PersonickShi-Kay Yao
    • G01L1/24
    • G01L1/245
    • A system for remote measurement of structural forces includes a plurality of microbend transducers mounted along the length of the structure for microbending an optical fiber in response to structural forces, such as stress acting upon an oil or gas pipeline or the like. An optical time domain reflectometer (OTDR) has a light source for launching a pulsed optical signal for passage through the fiber and a photodetector for sensing as a function of time the intensity of backscattered light reflected back through the fiber, wherein this sensed time function is correlated directly with discrete longitudinal positions along the length of the fiber and the structure. When one or more of the microbend transducers is activated to induce a microbend in the fiber in response to localized forces acting upon the structure, a portion of the backscattered light is lost at the microbend. This attenuation in backscattered light intensity is sensed quantitatively and positionally identified by the photodetector. Specific preferred constructions for microbend transducers and system arrangements particularly adapted for detecting structural strain in an oil or gas pipeline are disclosed.
    • 用于远程测量结构力的系统包括沿着结构的长度安装的多个微弯曲换能器,用于响应于结构力(例如作用在油或气体管线等上的应力)而微纤维弯曲光纤。 光时域反射计(OTDR)具有用于发射用于通过光纤的脉冲光信号的光源,以及用于感测作为时间的函数的光电检测器,用于通过光纤反射回的反向散射光的强度,其中该感测时间函数为 与纤维长度和结构的离散纵向位置直接相关。 当一个或多个微弯变换器被激活以响应于作用在结构上的局部力引起纤维中的微弯曲时,反向散射光的一部分在微弯处丧失。 反射散射光强度中的衰减由光电检测器定量和位置地识别。 公开了用于微弯传感器和特别适用于检测油或气管线中的结构应变的系统布置的特定优选结构。