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    • 1. 发明专利
    • Accelerometer with servo compensation
    • 带伺服补偿的加速度计
    • JP2007232718A
    • 2007-09-13
    • JP2007038778
    • 2007-02-20
    • Innalabs Technologies Incインナラブス テクノロジーズ, インコーポレイテッド
    • CHERNYAK MYKOLA GSKRYPKOVSKYY GENNADIY A
    • G01P15/13
    • G01P15/132G01P15/11
    • PROBLEM TO BE SOLVED: To provide an appropriate accelerometer with servo compensation in which a differential angular displacement sensor includes a toroidal excitation coil located on each magnet of a magnetic system and a coil of a momentum sensor located on a plate and the coil of the momentum sensor supplies an output signal of the angular displacement sensor.
      SOLUTION: The accelerometer with servo compensation includes, for example: a housing including upper and lower halves each having an opening; magnetic systems on the top and the bottom in the housing, each of which includes a magnetic conductor, a magnet and a field concentrator and which are located to be adjustable in the openings; two movable coils mounted on a movable plate and coupled with the respective magnetic systems wherein the movable coils and the magnetic systems form the momentum sensor; two toroidal excitation coils forming the differential angular displacement sensor together with the magnetic systems and the movable coils and located on the respective magnets; and a feedback electric circuit for generating an output signal based on an output from the momentum sensor and providing the movable coils to a feedback signal to restore the movable plate and the movable coils to a neutral position.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:为了提供具有伺服补偿的适当的加速度计,其中差分角位移传感器包括位于磁系统的每个磁体上的环形激励线圈和位于板上的动量传感器的线圈,线圈 的动量传感器提供角位移传感器的输出信号。 解决方案:具有伺服补偿的加速度计包括:例如:包括具有开口的上半部和下半部的壳体; 壳体顶部和底部的磁性系统,每个磁性体包括磁性导体,磁体和场集中器,它们位于可在开口中调节的位置; 两个可移动线圈安装在可移动板上并与各个磁性系统耦合,其中可动线圈和磁性系统形成动量传感器; 两个环形激励线圈与磁性系统和可动线圈一起形成差分角位移传感器并且位于相应的磁体上; 以及反馈电路,用于基于来自动量传感器的输出生成输出信号,并将可动线圈提供给反馈信号,以将可动板和可动线圈恢复到中立位置。 版权所有(C)2007,JPO&INPIT
    • 3. 发明专利
    • Magnetic fluid accelerometer equipped with active suspension
    • 配有主动悬架的磁性流量计
    • JP2006091019A
    • 2006-04-06
    • JP2005276932
    • 2005-09-22
    • Innalabs Technologies Incインナラブス テクノロジーズ, インコーポレイテッド
    • SIMONENKO DMITRI VSUPRUN ANTON EROMANOV YURI I
    • G01P15/02G01P15/11G01P15/18
    • G01P7/00G01C21/16G01P15/0888G01P15/105G01P15/11G01P15/132G01P15/18
    • PROBLEM TO BE SOLVED: To provide a method for measuring acceleration with a wide dynamic range and a high frequency response. SOLUTION: This method includes suspending an inertial body 202 by using a magnetic fluid 204, generating a magnetic field in the magnetic fluid, balancing a change in position of the inertial body as to a magnetic field generation source owing to acceleration with a modulation of the magnetic field, and calculating acceleration based on the modulation. In the process of the calculation, acceleration is derived from the amount of current, passing through a drive coil 302, required for the modulation. The acceleration comprises linear acceleration and/or angular acceleration. The drive coil comprises a permanent magnet, an electromagnet, or a combination of a permanent magnet and an electromagnet. Displacement of the inertial body can be detected by sensing coils 304 and 306. Each sensing coil can be disposed substantially inside a corresponding drive coil. The inertial body has no or weak magnetism, or else, the inertial body can have a ferromagnetic coating. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种用于测量具有宽动态范围和高频响应的加速度的方法。 解决方案:该方法包括通过使用磁性流体204悬挂惯性体202,在磁性流体中产生磁场,平衡由于加速而产生的惯性体与磁场产生源的位置的变化 调制磁场,并基于调制计算加速度。 在计算过程中,通过调制所需的通过驱动线圈302的电流量导出加速度。 加速度包括线性加速度和/或角加速度。 驱动线圈包括永磁体,电磁体或永磁体和电磁体的组合。 可以通过感测线圈304和306来检测惯性体的位移。每个感测线圈可以基本上设置在相应的驱动线圈内部。 惯性体具有无磁性或弱磁性,或者惯性体可具有铁磁性涂层。 版权所有(C)2006,JPO&NCIPI