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    • 1. 发明申请
    • SYSTEMS AND METHODS FOR RESONATOR FIBER OPTIC GYROSCOPE INTENSITY MODULATION CONTROL
    • 谐振光纤陀螺强度调制控制系统与方法
    • US20100253948A1
    • 2010-10-07
    • US12729660
    • 2010-03-23
    • Lee K. StrandjordGlen A. SandersNorman Gerard Tarleton
    • Lee K. StrandjordGlen A. SandersNorman Gerard Tarleton
    • G01C19/72
    • G01C19/727
    • Systems and methods for improved resonator fiber optic gyroscope intensity modulation control are provided. In one embodiment, a resonant fiber optic gyroscope (RFOG) having a residual intensity modulation (RIM) controller comprises: an intensity modulator optically coupled to receive a light beam from a laser source modulated at a resonance detection modulation frequency; an optical tap device optically coupled to the intensity modulator; and a feedback servo coupled to the optical tap device and the intensity modulator, the demodulating feedback servo generating a sinusoidal feedback signal to the intensity modulator. The feedback servo adjusts an amplitude and phase of the sinusoidal feedback signal provided to intensity modulator based on a residual intensity modulation detected by the demodulating feedback servo.
    • 提供了改进谐振器光纤陀螺仪强度调制控制的系统和方法。 在一个实施例中,具有残余强度调制(RIM)控制器的谐振光纤陀螺仪(RFOG)包括:光耦合的光强调制器,用于接收来自以谐振检测调制频率调制的激光源的光束; 与所述强度调制器光耦合的光学抽头装置; 以及耦合到光学抽头装置和强度调制器的反馈伺服器,解调反馈伺服器向强度调制器产生正弦反馈信号。 基于由解调反馈伺服检测到的残余强度调制,反馈伺服调节提供给强度调制器的正弦反馈信号的幅度和相位。
    • 2. 发明授权
    • Systems and methods for resonator fiber optic gyroscope intensity modulation control
    • 谐振器光纤陀螺仪强度调制控制系统和方法
    • US08294900B2
    • 2012-10-23
    • US12729660
    • 2010-03-23
    • Lee K. StrandjordGlen A. SandersNorman Gerard Tarleton
    • Lee K. StrandjordGlen A. SandersNorman Gerard Tarleton
    • G01C19/72
    • G01C19/727
    • Systems and methods for improved resonator fiber optic gyroscope intensity modulation control are provided. In one embodiment, a resonant fiber optic gyroscope (RFOG) having a residual intensity modulation (RIM) controller comprises: an intensity modulator optically coupled to receive a light beam from a laser source modulated at a resonance detection modulation frequency; an optical tap device optically coupled to the intensity modulator; and a feedback servo coupled to the optical tap device and the intensity modulator, the demodulating feedback servo generating a sinusoidal feedback signal to the intensity modulator. The feedback servo adjusts an amplitude and phase of the sinusoidal feedback signal provided to intensity modulator based on a residual intensity modulation detected by the demodulating feedback servo.
    • 提供了改进谐振器光纤陀螺仪强度调制控制的系统和方法。 在一个实施例中,具有残余强度调制(RIM)控制器的谐振光纤陀螺仪(RFOG)包括:光耦合的光强调制器,用于接收来自以谐振检测调制频率调制的激光源的光束; 与所述强度调制器光耦合的光学抽头装置; 以及耦合到光学抽头装置和强度调制器的反馈伺服器,解调反馈伺服器向强度调制器产生正弦反馈信号。 基于由解调反馈伺服检测到的残余强度调制,反馈伺服调节提供给强度调制器的正弦反馈信号的幅度和相位。
    • 3. 发明授权
    • System and method for reducing errors in a resonator fiber optic gyroscope
    • 用于减少谐振器光纤陀螺仪中的误差的系统和方法
    • US08908187B2
    • 2014-12-09
    • US13287422
    • 2011-11-02
    • Lee K. StrandjordTiequn QiuGlen A. Sanders
    • Lee K. StrandjordTiequn QiuGlen A. Sanders
    • G01C19/64G01C19/72
    • G01C19/727G01C19/722
    • An exemplary resonator fiber optic gyroscope comprises a resonator having an optical fiber loop; a light source configured to generate a light beam; and an intensity modulation circuit coupled between the light source and the resonator. The intensity modulation circuit is configured to modulate the intensity of the light beam from the light source to output an intensity modulated signal to the resonator. The intensity modulation circuit is configured to produce the intensity modulated signal such that harmonics of the intensity modulated signal which overlap a primary wave of a counter-propagating light beam in the resonator have an amplitude below a predetermined threshold. Amplitudes below the predetermined threshold are negligible.
    • 一种示例性的谐振器光纤陀螺仪包括具有光纤回路的谐振器; 被配置为产生光束的光源; 以及耦合在光源和谐振器之间的强度调制电路。 强度调制电路被配置为调制来自光源的光束的强度,以将强度调制信号输出到谐振器。 强度调制电路被配置为产生强度调制信号,使得与谐振器中的相反传播光束的主波重叠的强度调制信号的谐波具有低于预定阈值的幅度。 低于预定阈值的幅度可以忽略不计。
    • 4. 发明授权
    • RFOG modulation error correction
    • RFOG调制纠错
    • US07855789B2
    • 2010-12-21
    • US12167056
    • 2008-07-02
    • Lee K. StrandjordGlen A. Sanders
    • Lee K. StrandjordGlen A. Sanders
    • G01C19/72
    • G01C19/727
    • Systems and methods for performing modulation error correction. An example system applies common phase/frequency modulation to first and second laser beams, a first intensity modulation to the first modulated beam, and a second intensity modulation to the second modulated beam. Signals outputted are demodulated according to the frequency of the common phase/frequency modulation. Then the first of these demodulated signals is demodulated based on the frequency of the intensity modulation of the first beam, and the second of these demodulated signals is demodulated based on the frequency of the intensity modulation of the second beam. Then, rate of rotation is determined based on demodulated signals. Frequencies of the intensity modulations are unequal and not harmonically related, and intensity modulation encodes each light beam with a unique signature.
    • 用于执行调制误差校正的系统和方法。 示例性系统将共同相位/频率调制应用于第一和第二激光束,对第一调制光束进行第一强度调制,以及对第二调制光束进行第二强度调制。 输出的信号根据共同相位/频率调制的频率进行解调。 然后,基于第一光束的强度调制的频率对这些解调信号中的第一个进行解调,并且基于第二光束的强度调制的频率对这些解调信号中的第二个进行解调。 然后,基于解调信号确定旋转速率。 强度调制的频率是不相等的,而不是谐波相关的,强度调制对每个光束进行独特的签名编码。
    • 5. 发明授权
    • Optical resonator gyro and method for reducing resonance asymmetry errors
    • 光谐振陀螺和减少谐振不对称误差的方法
    • US07522284B2
    • 2009-04-21
    • US11540771
    • 2006-09-29
    • Glen A. SandersLee K. StrandjordTiequn Qiu
    • Glen A. SandersLee K. StrandjordTiequn Qiu
    • G01C19/72
    • G01C19/727
    • Methods and apparatus are provided for attenuating rotation rate errors in a resonator gyro. The gyro includes a ring resonator having a hollow core optical fiber coil and optical elements that are selected and/or oriented to reduce stray light that may be present in input light beams introduced to the ring resonator. The resonator has a predetermined mode. One of the optical elements partially transmits a portion of the input light beam to a first end of the fiber coil while partially transmitting a portion of the input light beam to a filter. Light having the predetermined mode is accepted into the first end of the fiber coil, and the filter accepts light of the input light beam having a corresponding mode. Transmission components of the circulating light beams indicates resonance peaks of the counter-propagating directions of the ring resonator.
    • 提供了用于衰减谐振器陀螺仪中的转速误差的方法和装置。 陀螺仪包括具有中空纤芯光纤线圈的环形谐振器和选择和/或取向以减少可能存在于引入环形谐振器的输入光束中的杂散光的光学元件。 谐振器具有预定模式。 一个光学元件将输入光束的一部分部分地传输到光纤线圈的第一端,同时部分地将输入光束的一部分传输到滤光器。 具有预定模式的光被接受到光纤线圈的第一端,并且滤光器接受具有相应模式的输入光束的光。 循环光束的透射分量表示环形谐振器的相反传播方向的共振峰值。
    • 6. 发明授权
    • Transmission mode RFOG and method for detecting rotation with RFOG
    • 传输模式RFOG和用于通过RFOG检测旋转的方法
    • US07327460B2
    • 2008-02-05
    • US11266628
    • 2005-11-02
    • Glen A. SandersLee K. Strandjord
    • Glen A. SandersLee K. Strandjord
    • G01C19/72
    • G01C19/727
    • Methods and apparatus are provided for sensing a rotation rate of a ring resonator in a transmission mode. A ring resonator for circulating light beams in counter-propagating directions comprises an optical fiber coil having a hollow core and first and second ends. A first optical element is configured to receive an input light beam and direct a portion of the input light beam in a counter-propagating direction of the ring resonator. A second optical element is configured to direct with the first optical element a majority of a circulating light beam in the counter-propagating direction of the ring resonator and derive a transmission mode component of the circulating light beam at one of the ends. The portion of the input light beam enters one of the first and second ends. The circulating light beam is based on the input light beam. The transmission mode component indicates a resonance peak of the counter-propagating direction of the ring resonator.
    • 提供了用于在传输模式下感测环形谐振器的旋转速率的方法和装置。 用于沿反向传播方向循环光束的环形谐振器包括具有中空芯的光纤线圈和第一和第二端。 第一光学元件被配置为接收输入光束并且在环形谐振器的相反传播方向上引导输入光束的一部分。 第二光学元件被配置为使第一光学元件与环形谐振器的反向传播方向上的大部分循环光束一起引导,并且在一个端部导出循环光束的透射模式分量。 输入光束的部分进入第一和第二端之一。 循环光束基于输入光束。 传输模式分量表示环形谐振器的相反传播方向的谐振峰值。
    • 10. 发明申请
    • SYSTEM AND METHOD FOR ENHANCING SIGNAL-TO-NOISE RATIO OF A RESONATOR FIBER OPTIC GYROSCOPE
    • 用于增强谐振器光纤陀螺信号噪声比的系统和方法
    • US20110292396A1
    • 2011-12-01
    • US12789972
    • 2010-05-28
    • Lee K. StrandjordGlen A. SandersTiequn Qiu
    • Lee K. StrandjordGlen A. SandersTiequn Qiu
    • G01C19/72
    • G01C19/727
    • A resonator fiber optic gyroscope includes a sensing resonator having a first resonance frequency for a first laser beam propagation direction and a second resonance frequency for a second laser beam propagation direction; an intensity modulator coupled to an output of the sensing resonator and configured to modulate the intensity of a signal output from the sensing resonator, wherein the intensity modulator modulates the output signal at an intensity modulation frequency; and resonance tracking electronics coupled to an output of the intensity modulator and configured to demodulate the intensity modulated signal output from the intensity modulator at a resonance tracking modulation frequency to produce a first demodulated signal; the resonance tracking electronics further configured to demodulate the first demodulated signal at the intensity modulation frequency, wherein the intensity modulation frequency is different from the resonance tracking modulation frequency.
    • 谐振器光纤陀螺仪包括:感测谐振器,具有用于第一激光束传播方向的第一谐振频率和用于第二激光束传播方向的第二谐振频率; 耦合到感测谐振器的输出并被配置为调制从感测谐振器输出的信号的强度的强度调制器,其中强度调制器以强度调制频率调制输出信号; 以及谐振跟踪电子器件耦合到所述强度调制器的输出并且被配置为以谐振跟踪调制频率解调从所述强度调制器输出的强度调制信号,以产生第一解调信号; 谐振跟踪电子器件还被配置为以强度调制频率解调第一解调信号,其中强度调制频率不同于谐振跟踪调制频率。