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    • 1. 发明授权
    • Methods and apparatus for mechanically enhancing the sensitivity of transversely loaded fiber optic sensors
    • 用于机械增强横向负载光纤传感器灵敏度的方法和装置
    • US06218661B1
    • 2001-04-17
    • US09179146
    • 1998-10-26
    • Robert J. SchroederTsutomu YamateRogerio T. RamosRaghu MadhavanEric Udd
    • Robert J. SchroederTsutomu YamateRogerio T. RamosRaghu MadhavanEric Udd
    • G01J104
    • G01L1/246G01D5/35316G01D5/35377G01K11/3206G01L9/0076G01L11/025
    • The apparatus of the present invention include an optical fiber with a Bragg grating formed along a portion of its core and a mechanical structure arranged adjacent to the Bragg grating for amplifying transverse strain on the fiber in the vicinity of the grating. In particular, the mechanical structure is designed to convert ambient pressure into transverse strain on the fiber in the vicinity of the grating. The methods of the invention include converting pressure into transverse strain on an optical fiber, amplifying the effect of pressure on the transverse strain, measuring pressure by determining the spacing between spectral locations related to peaks (or minimums) of light reflected from an optical grating subjected to transverse strain, and measuring the temperature of the grating by determining the locations of the spectral locations related to the peaks (or minimums) of light reflected from the grating. According to one embodiment, the mechanical structure includes a piston mounted in a transducer body through which the optical fiber passes.
    • 本发明的装置包括具有沿其芯部的一部分形成的布拉格光栅的光纤和布置于布拉格光栅附近的用于放大光栅附近的光纤上的横向应变的机械结构。 特别地,机械结构被设计成在光栅附近将环境压力转换成光纤上的横向应变。 本发明的方法包括将压力转换成光纤上的横向应变,通过确定与从受光纤光栅所反射的光的峰值(或最小值)相关的光谱位置之间的距离来确定压力对横向应变的影响,测量压力 通过确定与从光栅反射的光的峰值(或最小值)相关的光谱位置的位置来测量光栅的温度。 根据一个实施例,机械结构包括安装在光纤通过的换能器主体中的活塞。
    • 2. 发明授权
    • Methods and apparatus for mechanically enhancing the sensitivity of longitudinally loaded fiber optic sensors
    • 用于机械增强纵向加载光纤传感器灵敏度的方法和装置
    • US06246048B1
    • 2001-06-12
    • US09313603
    • 1999-05-18
    • Rogerio T. RamosRaghu MadhavanTsutomu YamateStephen C. BalkunasRobert J. Schroeder
    • Rogerio T. RamosRaghu MadhavanTsutomu YamateStephen C. BalkunasRobert J. Schroeder
    • H01J516
    • G01L1/246
    • An optical fiber is provided with a Bragg grating formed along a portion of its core and a mechanical structure arranged adjacent to the Bragg grating for amplifying longitudinal strain on the fiber in the vicinity of the grating. The mechanical structure is designed to convert ambient pressure into longitudinal strain on the fiber in the vicinity of the grating and to allow the fiber to pass through the structure so that several pressure measuring apparatus may be arranged along a single optical fiber. An intermediate structure is provided between the fiber and the mechanical structure for minimizing buckling of the fiber. The methods of the invention include converting pressure into longitudinal strain on an optical fiber, amplifying the effect of pressure on the longitudinal strain, measuring pressure by determining the spectral location related to peaks (or minimums) of light reflected from an optical grating subjected to longitudinal strain.
    • 光纤具有沿其芯部的一部分形成的布拉格光栅和布置在布拉格光栅附近的机械结构,用于放大光栅附近的光纤上的纵向应变。 机械结构被设计成将环境压力转换成在光栅附近的光纤上的纵向应变,并允许光纤通过结构,使得可以沿着单个光纤布置多个压力测量装置。 在纤维和机械结构之间提供中间结构以最小化纤维的弯曲。 本发明的方法包括将压力转换成光纤上的纵向应变,通过确定与经受纵向光栅的光栅反射的光的峰值(或最小值)相关的光谱位置来扩大压力对纵向应变的影响,测量压力 应变。
    • 3. 发明授权
    • Methods and apparatus for enhancing dynamic range, sensitivity, accuracy, and resolution in fiber optic sensor systems
    • 用于增强光纤传感器系统的动态范围,灵敏度,精度和分辨率的方法和装置
    • US06363180B1
    • 2002-03-26
    • US09303163
    • 1999-04-30
    • Tsutomu YamateRobert J. SchroederRogerio T. RamosEric Udd
    • Tsutomu YamateRobert J. SchroederRogerio T. RamosEric Udd
    • G02B600
    • G01L1/246G01D5/344G01D5/35383
    • Methods for enhancing dynamic range, sensitivity, accuracy, and resolution in fiber optic sensors include manipulating the polarization characteristics of the light entering a fiber optic sensor and/or manipulating the polarization characteristics of the light exiting the sensor before it enters the light detection system. An apparatus according to the invention includes a fiber optic core having one or more gratings written onto it, a light source and a detection system for detecting light transmitted through the grating or reflected by the grating. The light source and the spectral demodulation system may be coupled to opposite ends of the fiber optic (transmission mode) or may be coupled to the same end of the fiber optic through the use of a beam splitter and terminators (reflection mode). Apparatus according to the invention include a polarizer and controller located either between the light source and the fiber or between the fiber and the detection system. Other embodiments of the invention include a depolarizing scrambler before the detection system so that the light entering the detection system is depolarized. According to other embodiments, two detection systems are coupled to the fiber by a beam splitter.
    • 用于增强光纤传感器中的动态范围,灵敏度,精度和分辨率的方法包括操纵进入光纤传感器的光的偏振特性和/或在进入光检测系统之前操纵离开传感器的光的偏振特性。 根据本发明的装置包括具有写入其中的一个或多个光栅的光纤芯,光源和用于检测透过光栅或由光栅反射的光的检测系统。 光源和光谱解调系统可以耦合到光纤的相对端(传输模式),或者可以通过使用分束器和终端器(反射模式)耦合到光纤的同一端。 根据本发明的设备包括位于光源和光纤之间或光纤与检测系统之间的偏振器和控制器。 本发明的其它实施例包括在检测系统之前的去极化扰频器,使得进入检测系统的光被去极化。 根据其他实施例,两个检测系统通过分束器耦合到光纤。
    • 5. 发明授权
    • Measuring system with sweeping comb filter and multiplexer
    • 带梳状滤波器和多路复用器的测量系统
    • US06946645B2
    • 2005-09-20
    • US10733531
    • 2003-12-11
    • Jeffrey A. TarvinRobert J. SchroederRogerio T. RamosTsutomu Yamate
    • Jeffrey A. TarvinRobert J. SchroederRogerio T. RamosTsutomu Yamate
    • G01L1/24G01B11/16
    • G01L1/246
    • High-resolution measurement of a parameter is provided at multiple different locations simultaneously along an optic fiber. Light within a predefined range of wavelengths is transmitted into an optic fiber that contains multiple birefringent fiber optic pressure transducers, each including a Fiber Bragg Grating. Each grating defines a spatially modulated index of refraction and a wavelength that is unique within the system. A sweeping comb filter is used to apply optical comb filtering to light reflected from the transducers so as to pass filtered light having multiple spectral portions, each spectral portion associated with one transducer. The free spectral range of the sweeping comb filter is set to be approximately equal to the spectral range of a single spectral portion. Wavelength division multiplexing is applied to the filtered light so as to separate the spectral portions. The value of a parameter is preferably determined using the spectral spacing of two maxima of spectral intensity in each spectral portion.
    • 沿着光纤同时在多个不同位置提供参数的高分辨率测量。 在预定波长范围内的光被传输到包含多个双折射光纤压力换能器的光纤中,每个包括光纤布拉格光栅。 每个光栅定义了空间调制的折射率和系统内唯一的波长。 扫描梳状滤波器用于对从换能器反射的光进行光梳滤波,以便通过具有多个频谱部分的滤波光,每个光谱部分与一个换能器相关联。 扫描梳状滤波器的自由频谱范围设置为近似等于单个频谱部分的频谱范围。 将波分复用应用于滤波后的光,以分离光谱部分。 优选地,使用每个光谱部分中的光谱强度的两个最大值的光谱间隔来确定参数的值。