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    • 4. 发明申请
    • OPTICAL ACCELEROMETER SYSTEM
    • 光学加速度计系统
    • US20130327146A1
    • 2013-12-12
    • US13907333
    • 2013-05-31
    • A. DOUGLAS MEYERMICHAEL D. BULATOWICZMICHAEL S. LARSENROBERT C. GRIFFITH
    • A. DOUGLAS MEYERMICHAEL D. BULATOWICZMICHAEL S. LARSENROBERT C. GRIFFITH
    • G01P15/093
    • G01P15/093G01P15/08G01P15/18
    • One embodiment includes an accelerometer system. The system includes a laser configured to emit an optical beam at a linear polarization. The system also includes an optical cavity system. The optical cavity system includes a minor that is coupled to an accelerometer housing via a spring and is configured to reflect the optical beam. The optical cavity system also includes at least one photodetector configured to receive at least a portion of at least one of the optical beam and the reflected optical beam and to generate an acceleration signal that is indicative of motion of the mirror resulting from an external acceleration acting upon the accelerometer housing. The system further includes an acceleration processor configured to calculate a magnitude of the external acceleration based on the acceleration signal.
    • 一个实施例包括加速度计系统。 该系统包括被配置为以线偏振发射光束的激光器。 该系统还包括光腔系统。 光腔系统包括通过弹簧联接到加速度计壳体的小型并且被构造成反射光束。 光腔系统还包括至少一个光电检测器,其被配置为接收光束和反射光束中的至少一个的至少一部分,并且产生指示由外部加速度作用产生的反射镜的运动的加速度信号 在加速度计外壳上。 该系统还包括加速度处理器,该加速度处理器被配置为基于加速度信号来计算外部加速度的大小。
    • 5. 发明申请
    • GYROSCOPE SYSTEM MAGNETIC FIELD ERROR COMPENSATION
    • 陀螺仪系统磁场误差补偿
    • US20120191396A1
    • 2012-07-26
    • US13011530
    • 2011-01-21
    • Robert C. GriffithMichael S. LarsenMichael D. Bulatowicz
    • Robert C. GriffithMichael S. LarsenMichael D. Bulatowicz
    • G06F19/00
    • G01C19/62
    • One embodiment of the invention includes a nuclear magnetic resonance (NMR) gyroscope system. The system includes a gyro cell that is sealed to enclose an alkali metal vapor, a first gyromagnetic isotope, and a second gyromagnetic isotope. A magnetic field generator configured to generate a magnetic field that is provided through the gyro cell to cause the first and the second gyromagnetic isotopes to precess. A magnetic field error controller configured to measure an error associated with a magnitude of the magnetic field and to generate an error signal that is fed back to the magnetic field generator to maintain the magnetic field at a desired magnitude. The system further includes a mechanization processor configured to calculate a rotation angle about a sensitive axis of the NMR gyroscope system based on a measured precession angle of at least one of the first and second gyromagnetic isotopes and the error signal.
    • 本发明的一个实施例包括核磁共振(NMR)陀螺仪系统。 该系统包括密封以包围碱金属蒸气的陀螺仪单元,第一回旋磁同位素和第二回旋磁同位素。 磁场发生器被配置为产生通过陀螺仪单元提供的磁场,以使第一和第二回旋磁同位素进入。 磁场误差控制器被配置为测量与磁场的大小相关联的误差,并且产生反馈到磁场发生器以将磁场维持在期望的大小的误差信号。 该系统还包括机械化处理器,其被配置为基于所测量的第一和第二回旋磁同位素和误差信号中的至少一个的进动角来计算关于NMR陀螺仪系统的敏感轴的旋转角度。
    • 6. 发明授权
    • Soldering apparatus processor having temperature selection, calibration
and heating control of tip
    • 焊接设备处理器具有温度选择,校准和加热控制的尖端
    • US5495093A
    • 1996-02-27
    • US13968
    • 1993-02-05
    • Robert C. Griffith
    • Robert C. Griffith
    • B23K3/03H05B1/02
    • B23K3/033
    • A soldering system is disclosed having a stored program microcontroller by which one or more temperatures can be selected for a soldering iron tip. The system then automatically maintains such tip temperature during the soldering operation. The programmed microcontroller is coupled through input/output and interface circuits to a heating control that in turn is connected to the iron heater element for switching AC power in units of full waveform cycles across the element while the temperature of the tip is measured by a resistor sensor and an associated bridge measurement circuit so as to produce a signal that is applied to an input of the microcontroller forming a feedback loop. This causes the resistor sensor and hence the iron tip to reach the desired temperature. A thermocouple is provided for measuring and calibrating the actual temperature of the iron tip thus ensuring that the resistor sensor and associated feedback loop causes the microprocessor to drive the heater element as needed to cause the soldering tip to stabilize at the selected temperature. The external thermocouple probe may also be used separately and simultaneously with the soldering operation to ensure that the temperature of a probed component does not exceed a predetermined safe level.
    • 公开了一种具有存储的程序微控制器的焊接系统,通过该程序微控制器可以选择烙铁头的一个或多个温度。 然后,系统在焊接操作期间自动维持这样的尖端温度。 编程的微控制器通过输入/输出和接口电路耦合到加热控制,加热控制又连接到铁加热器元件,用于以整个元件的全波形循环为单位切换交流电,同时尖端的温度由电阻 传感器和相关联的桥接测量电路,以产生施加到形成反馈回路的微控制器的输入端的信号。 这使得电阻传感器因此铁尖达到所需的温度。 提供热电偶用于测量和校准铁尖端的实际温度,从而确保电阻传感器和相关联的反馈环路使得微处理器根据需要驱动加热器元件,以使焊接头在所选择的温度下稳定。 外部热电偶探头也可以与焊接操作分开并同时使用,以确保探测部件的温度不超过预定的安全水平。
    • 7. 发明授权
    • Balanced intensity differential photo detector
    • 平衡强度差分光电探测器
    • US09494462B2
    • 2016-11-15
    • US14622158
    • 2015-02-13
    • Robert C. Griffith
    • Robert C. Griffith
    • H01J40/14G01J1/42G01J1/44
    • G01J1/4228G01J1/0295G01J1/44
    • A circuit includes a first photo detector and a second photo detector to receive a first and second light input signal, respectfully, to generate a first current output signal and second current output signal respectively in response to the respective light input signals. A current multiplier stage receives the second current output signal from the second photo detector to generate a multiplied current output signal that is greater than the magnitude of the second current output signal. A differential multiplier having a first current path receives a portion of the multiplied current output signal and a second current path that receives another portion of the multiplied current output signal. The first current path is in series with the first current output signal to facilitate balancing of currents between the first current output signal of the first photo detector and the second current output signal of the second photo detector.
    • 电路包括第一光电检测器和第二光电检测器,用于接收第一和第二光输入信号,以分别响应于相应的光输入信号产生第一电流输出信号和第二电流输出信号。 电流倍增器级接收来自第二光电检测器的第二电流输出信号,以产生大于第二电流输出信号幅度的相乘的电流输出信号。 具有第一电流路径的差分乘法器接收相乘电流输出信号的一部分和接收相乘电流输出信号的另一部分的第二电流路径。 第一电流路径与第一电流输出信号串联,以便于平衡第一光电检测器的第一电流输出信号和第二光电检测器的第二电流输出信号之间的电流。
    • 8. 发明申请
    • RATIOMETRIC NUCLEAR MAGNETIC RESONANCE (NMR) GYROSCOPE SYSTEM
    • 磁性核磁共振(NMR)陀螺仪系统
    • US20160202062A1
    • 2016-07-14
    • US14593827
    • 2015-01-09
    • ROBERT C. GRIFFITH
    • ROBERT C. GRIFFITH
    • G01C19/62G01R33/26
    • G01C19/62G01R33/26
    • An NMR gyroscope system includes a vapor cell that includes an alkali metal, a first gyromagnetic isotope, and a second gyromagnetic isotope, and a pump laser generates an optical pump beam. A magnetic field generator generates a magnetic field that is substantially aligned with a sensitive axis to cause the first and second gyromagnetic isotopes to counter-precess based on the optical pump beam and the alkali metal. A probe laser provides an optical probe beam through the vapor cell that exits the vapor cell as a detection beam, and a detection system monitors the detection beam and to determine a rotation of the NMR gyroscope system about a sensitive axis based on a modulation of the detection beam in response to precession of the first and second gyromagnetic isotopes and based on a predetermined constant ratio of precession of the first and second gyromagnetic isotopes.
    • NMR陀螺仪系统包括包含碱金属,第一回旋磁同位素和第二回旋磁同位素的蒸汽池,泵激光器产生光泵浦光束。 磁场发生器产生基本上与敏感轴对准的磁场,以使第一和第二回旋磁同位素基于光泵浦光束和碱金属反相进入。 探针激光器提供穿过蒸气室的光学探针束,其作为检测光束离开蒸汽单元,检测系统监测检测光束,并基于调制的方式确定NMR陀螺仪系统围绕敏感轴的旋转 响应于所述第一和第二回旋磁同位素的进动并且基于所述第一和第二回旋磁同位素的进动的预定的恒定比例来检测所述检测光束。
    • 9. 发明授权
    • Optical accelerometer system
    • 光学加速度计系统
    • US09285390B2
    • 2016-03-15
    • US13907333
    • 2013-05-31
    • A. Douglas MeyerMichael D. BulatowiczMichael S. LarsenRobert C. Griffith
    • A. Douglas MeyerMichael D. BulatowiczMichael S. LarsenRobert C. Griffith
    • G01P15/08G01P15/093G01P15/18
    • G01P15/093G01P15/08G01P15/18
    • One embodiment includes an accelerometer system. The system includes a laser configured to emit an optical beam at a linear polarization. The system also includes an optical cavity system. The optical cavity system includes a mirror that is coupled to an accelerometer housing via a spring and is configured to reflect the optical beam. The optical cavity system also includes at least one photodetector configured to receive at least a portion of at least one of the optical beam and the reflected optical beam and to generate an acceleration signal that is indicative of motion of the mirror resulting from an external acceleration acting upon the accelerometer housing. The system further includes an acceleration processor configured to calculate a magnitude of the external acceleration based on the acceleration signal.
    • 一个实施例包括加速度计系统。 该系统包括被配置为以线偏振发射光束的激光器。 该系统还包括光腔系统。 光学腔系统包括经由弹簧耦合到加速度计壳体的反射镜,并被配置为反射光束。 光腔系统还包括至少一个光电检测器,其被配置为接收光束和反射光束中的至少一个的至少一部分,并且产生指示由外部加速度作用产生的反射镜的运动的加速度信号 在加速度计外壳上。 该系统还包括加速度处理器,该加速度处理器被配置为基于加速度信号来计算外部加速度的大小。