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    • 3. 发明授权
    • Anomaly detector for vibratory angular rate sensor
    • 用于振动角速度传感器的异常检测器
    • US07292021B2
    • 2007-11-06
    • US11245453
    • 2005-10-07
    • Takao TsuruharaHajime ItoShunji Mase
    • Takao TsuruharaHajime ItoShunji Mase
    • G01R13/14G01P3/44G01P9/00G01P15/08
    • G01C19/5649
    • In an anomaly detector that detects an abnormal condition of an oscillation signal of a circuit such as a vibratory sensing circuit, the oscillation signal, having AC and DC components, is converted to a pair of first and second signals of either opposite-polarity DC amplitudes or opposite-phase alternating amplitudes. The first and second signals are combined to cancel the AC component of the oscillation signal to detect the DC component. The DC component is then compared with the upper and lower thresholds of a decision range to produce an alarm if the DC component goes outside the decision range. In one embodiment, the first and second signals are produced by detecting positive and negative peak values of the oscillation signal at intervals. In a second embodiment, the first signal is produced by high-pass filtering the oscillation signal as a replica of the AC component and the second signal is the oscillation signal itself.
    • 在检测振动检测电路等电路的振荡信号的异常状态的异常检测器中,将具有AC,DC成分的振荡信号转换为相反极性的DC振幅的一对第一和第二信号 或反相交变振幅。 组合第一和第二信号以消除振荡信号的AC分量以检测DC分量。 然后将DC分量与决策范围的上限和下限阈值进行比较,以在DC分量超出决策范围时产生报警。 在一个实施例中,通过以间隔检测振荡信号的正和负峰值来产生第一和第二信号。 在第二实施例中,第一信号是通过对作为AC分量的复制品的振荡信号进行高通滤波而产生的,第二信号是振荡信号本身。
    • 4. 发明申请
    • Anomaly detector for vibratory angular rate sensor
    • 用于振动角速度传感器的异常检测器
    • US20060077013A1
    • 2006-04-13
    • US11245453
    • 2005-10-07
    • Takao TsuruharaHajime ItoShunji Mase
    • Takao TsuruharaHajime ItoShunji Mase
    • H03B1/00
    • G01C19/5649
    • In an anomaly detector that detects an abnormal condition of an oscillation signal of a circuit such as a vibratory sensing circuit, the oscillation signal, having AC and DC components, is converted to a pair of first and second signals of either opposite-polarity DC amplitudes or opposite-phase alternating amplitudes. The first and second signals are combined to cancel the AC component of the oscillation signal to detect the DC component. The DC component is then compared with the upper and lower thresholds of a decision range to produce an alarm if the DC component goes outside the decision range. In one embodiment, the first and second signals are produced by detecting positive and negative peak values of the oscillation signal at intervals. In a second embodiment, the first signal is produced by high-pass filtering the oscillation signal as a replica of the AC component and the second signal is the oscillation signal itself.
    • 在检测振动检测电路等电路的振荡信号的异常状态的异常检测器中,将具有AC,DC成分的振荡信号转换为相反极性的DC振幅的一对第一和第二信号 或反相交变振幅。 组合第一和第二信号以消除振荡信号的AC分量以检测DC分量。 然后将DC分量与决策范围的上限和下限阈值进行比较,以在DC分量超出决策范围时产生报警。 在一个实施例中,通过以间隔检测振荡信号的正和负峰值来产生第一和第二信号。 在第二实施例中,第一信号是通过对作为AC分量的复制品的振荡信号进行高通滤波而产生的,第二信号是振荡信号本身。
    • 5. 发明申请
    • Sensor system
    • 传感器系统
    • US20050217375A1
    • 2005-10-06
    • US11085109
    • 2005-03-22
    • Shunji Mase
    • Shunji Mase
    • G01P21/02G01C19/00G01C19/56G01P15/08G01P15/097G01P15/125G01P21/00
    • G01C19/5719G01P15/125
    • In a sensor system, a detection waveform-forming unit detects a vibration component and forms a waveform of a detected angular velocity based on the vibration component. Components of the waveform are of opposite phases relative to each other and acceleration waveform components are in phase relative to each other. An acceleration signal-forming unit operates on the waveform to cancel the waveform of opposite phases to each other, and produces a second kind acceleration signal. An abnormal condition-detecting unit detects an abnormal condition in either the angular velocity sensor unit or an acceleration sensor unit provided separately based on the second kind acceleration signal and a first kind acceleration signal.
    • 在传感器系统中,检测波形形成单元检测振动分量,并且基于振动分量形成检测到的角速度的波形。 波形的分量相对于彼此具有相反的相位,并且加速度波形分量相对于彼此相位。 加速度信号形成单元对波形进行动作以抵消相反相位的波形,并产生第二种加速度信号。 异常状态检测单元基于第二种加速度信号和第一种加速度信号来检测角速度传感器单元或单独提供的加速度传感器单元中的异常状况。
    • 6. 发明授权
    • Dynamic quantity detection device
    • 动态量检测装置
    • US08547119B2
    • 2013-10-01
    • US12923539
    • 2010-09-28
    • Toshio IkutaShunji MaseSeiya Ide
    • Toshio IkutaShunji MaseSeiya Ide
    • G01R27/26
    • G01L9/12G01D5/24G01P15/125
    • A dynamic quantity detection device includes a detection portion, a signal process portion, and an operation mode switch portion. The detection portion detects a dynamic quantity applied from an outside and generates a sensor signal in accordance with the dynamic quantity. The signal process portion processes the sensor signal from the detection portion to have a property suitable for an external device. When the sensor signal output from the detection portion is less than or equal to a predetermined threshold value, the operation mode switch portion sets an operation mode to a power save mode by stopping an operation of the signal process portion. When the sensor signal output from the detection portion is greater than the predetermined threshold value, the operation mode switch portion switches the operation mode to a normal mode by activating the signal process portion.
    • 动态量检测装置包括检测部分,信号处理部分和操作模式切换部分。 检测部分检测从外部施加的动态量,并根据动态量生成传感器信号。 信号处理部分处理来自检测部分的传感器信号具有适于外部设备的特性。 当从检测部分输出的传感器信号小于或等于预定阈值时,操作模式切换部分通过停止信号处理部分的操作将操作模式设置为省电模式。 当从检测部分输出的传感器信号大于预定阈值时,操作模式切换部分通过激活信号处理部分将操作模式切换到正常模式。
    • 7. 发明申请
    • Dynamic quantity detection device
    • 动态量检测装置
    • US20110109330A1
    • 2011-05-12
    • US12923539
    • 2010-09-28
    • Toshio IkutaShunji MaseSeiya Ide
    • Toshio IkutaShunji MaseSeiya Ide
    • G01R27/26G01P15/125H04B1/04
    • G01L9/12G01D5/24G01P15/125
    • A dynamic quantity detection device includes a detection portion, a signal process portion, and an operation mode switch portion. The detection portion detects a dynamic quantity applied from an outside and generates a sensor signal in accordance with the dynamic quantity. The signal process portion processes the sensor signal from the detection portion to have a property suitable for an external device. When the sensor signal output from the detection portion is less than or equal to a predetermined threshold value, the operation mode switch portion sets an operation mode to a power save mode by stopping an operation of the signal process portion. When the sensor signal output from the detection portion is greater than the predetermined threshold value, the operation mode switch portion switches the operation mode to a normal mode by activating the signal process portion.
    • 动态量检测装置包括检测部分,信号处理部分和操作模式切换部分。 检测部分检测从外部施加的动态量,并根据动态量生成传感器信号。 信号处理部分处理来自检测部分的传感器信号具有适于外部设备的特性。 当从检测部分输出的传感器信号小于或等于预定阈值时,操作模式切换部分通过停止信号处理部分的操作将操作模式设置为省电模式。 当从检测部分输出的传感器信号大于预定阈值时,操作模式切换部分通过激活信号处理部分将操作模式切换到正常模式。
    • 8. 发明申请
    • Movable sensor device
    • 可动传感器装置
    • US20060197173A1
    • 2006-09-07
    • US11365606
    • 2006-03-02
    • Shunji Mase
    • Shunji Mase
    • H01L31/00
    • G01C19/5719B81B3/0078B81B2201/0235
    • A movable sensor device includes a laminate body in which a micromechanical acting layer having a movable sensor structure and a coating layer coated on the micromechanical acting layer is successively laminated on a substrate. A draft portion penetrates through the laminate body in the lamination direction. The draft portion and a residual portion thereof are disposed at a peripheral portion of the movable sensor structure in the laminate body. The residual portion is a thin portion that is smaller in thickness than the laminate body and has a spring function.
    • 可移动传感器装置包括层压体,其中具有可移动传感器结构的微机械作用层和涂覆在微机械作用层上的涂层依次层压在基板上。 牵伸部分在层叠体上穿过层叠体。 牵伸部分及其残留部分设置在层叠体中的可移动传感器结构的周边部分。 剩余部分是厚度小于层压体的薄部分并且具有弹簧功能。
    • 9. 发明申请
    • Vibration type angular velocity sensor
    • 振动式角速度传感器
    • US20050204815A1
    • 2005-09-22
    • US11075886
    • 2005-03-10
    • Shunji MaseKenji Hirano
    • Shunji MaseKenji Hirano
    • G01C19/56G01C19/5719G01D5/12G01D5/24G01P3/483G01P9/00
    • G01C19/5719
    • A vibration type angular velocity sensor includes: a first and a second angular velocity sensors; and an anomaly monitoring signal generating and outputting unit including an opposite phase waveform synthesis portion. The first and the second angular velocity sensors include: a vibrator; a vibration driving unit; and a detection waveform generation unit. The opposite phase waveform synthesis portion synthesizes the first and the second detection waveforms with opposite phase. The anomaly monitoring signal generating and outputting unit generates and outputs an anomaly monitoring signal on the basis of a synthesized opposite phase waveform synthesized from the first and the second detection waveforms.
    • 振动型角速度传感器包括:第一和第二角速度传感器; 以及包括相反相位波形合成部分的异常监视信号生成和输出单元。 第一和第二角速度传感器包括:振动器; 振动驱动单元; 和检测波形生成单元。 反相位波形合成部分以相反相位合成第一和第二检测波形。 异常监视信号生成和输出单元基于从第一和第二检测波形合成的合成的反相波形生成并输出异常监视信号。
    • 10. 发明授权
    • Apparatus for driving electric load
    • 用于驱动电力负载的装置
    • US06184663B2
    • 2001-02-06
    • US09384223
    • 1999-08-27
    • Hiroshi ImaiYoshiki KoyamaShunji Mase
    • Hiroshi ImaiYoshiki KoyamaShunji Mase
    • G05F140
    • H05B39/041H05B39/02Y02B20/14Y10S323/901Y10S323/908
    • An apparatus for driving an electric load includes a switch device interposed in a current feed path from a direct-current power source to the electric load. A sensing resistor connected in series with the switch device operates for detecting a load current as a voltage value. The load current flows into the electric load via the switch device. A signal generation device operates for generating a trapezoidal wave signal in response to externally applied commands to turn on and turn off the electric load. The trapezoidal wave signal gradually varies from a first predetermined voltage to a second predetermined voltage when the electric load starts to be turned on. The trapezoidal wave signal gradually varies from the second predetermined voltage to the first predetermined voltage when the electric load starts to be turned off. A control device operates for comparing the trapezoidal wave signal generated by the signal generation device and the voltage value provided by the sensing resistor, and for controlling the switch device in response to a result of the comparing so that the load current will vary in accordance with the trapezoidal wave signal.
    • 用于驱动电负载的装置包括插入在从直流电源到电负载的电流馈送路径中的开关装置。 与开关装置串联连接的感测电阻用于检测负载电流作为电压值。 负载电流通过开关装置流入电负载。 信号发生装置用于响应于外部施加的命令产生梯形波信号以导通和关断电负载。 当电负载开始接通时,梯形波信号从第一预定电压逐渐变化到第二预定电压。 当电负载开始关闭时,梯形波信号从第二预定电压逐渐变化到第一预定电压。 控制装置用于比较由信号发生装置产生的梯形波信号和由感测电阻器提供的电压值,并且响应于比较结果来控制开关装置,使得负载电流将根据 梯形波信号。