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    • 6. 发明申请
    • ELECTRO-MECHANICAL MINIATURIZED DEVICE FOR PRESSURE MEASUREMENTS
    • 用于压力测量的电子机械微型装置
    • WO2015114553A1
    • 2015-08-06
    • PCT/IB2015/050673
    • 2015-01-29
    • NANOTECH ANALYSIS S.R.L.S.
    • MENSA, Gianpiero
    • G01L15/00G01L27/00
    • G01L27/002B81B3/0021B81B2201/0264C07F9/65586G01L9/0008G01L15/00G01L27/007
    • An electro-mechanical miniaturized device 1 for pressure measurements is described, the device comprising at least one first electro-mechanical miniaturized pressure sensor member 11, configured to detect a respective first pressure value P 1 and to generate a first electrical signal S 1 representative of the first pressure value P 1 , and further comprising at least one second electro-mechanical miniaturized pressure sensor member 12, configured to detect a respective second pressure value P 2 and to generate a second electrical signal S 2 representative of said second pressure value P 2 . The second sensor member 12 is arranged within a casing 13 suitable to seal it. The device 1 further comprises electronic processing means 10, operatively connected to the first 11 and the second 12 sensor members, and configured to determine a measured pressure value P based on said first S 1 and second S 2 electrical signals; and finally comprises interface means 15, operatively connected to the electronic processing means 10 and configured to provide in output said measured pressure value P. The first 11 and second 12 sensor members, the electronic processing means 10 and the interface means 15 are comprised in a single integrated device.
    • 描述了一种用于压力测量的机电小型化装置1,该装置包括至少一个第一机电小型化压力传感器构件11,其构造成检测相应的第一压力值P1并产生代表第一压力值P1的第一电信号S1 压力值P1,并且还包括至少一个第二机电小型化压力传感器构件12,其构造成检测相应的第二压力值P2并产生代表所述第二压力值P2的第二电信号S2。 第二传感器构件12布置在适于密封它的壳体13内。 装置1还包括可操作地连接到第一和第二传感器构件的电子处理装置10,并且被配置为基于所述第一S1和第二S2电信号确定测量的压力值P. 并且最后包括接口装置15,其可操作地连接到电子处理装置10并且被配置为在输出中提供所测量的压力值P.第一和第二传感器构件,电子处理装置10和接口装置15包括在 单一集成设备。
    • 8. 发明申请
    • CORIOLIS MASS FLOW RATE METER HAVING ADJUSTABLE PRESSURE AND DENSITY SENSITIVITY
    • 具有可调节压力和密度灵敏度的CORIOLIS质量流量计
    • WO1995029385A1
    • 1995-11-02
    • PCT/US1995005036
    • 1995-04-18
    • DIRECT MEASUREMENT CORPORATION
    • DIRECT MEASUREMENT CORPORATIONCAGE, Donald, R.SCHOTT, Michael, N.
    • G01F01/84
    • G01F1/8409G01F1/8413G01F1/8418G01F1/8431G01F1/8436G01F1/8459G01F1/8463G01F1/849G01F15/024G01L9/0008G01N9/002G01N11/16G01N2009/006
    • Several Radial Mode Coriolis mass flow rate meter geometries and electronic circuits are described that may be made to be sensitive to pressure or density changes. In one embodiment, the meter comprises: (A) a flow conduit (1) for containing a fluid having a physical characteristic, the fluid (21) adapted to flow in the conduit at an unknown rate, (B) a drive circuit (16, 17) for creating a vibration in the flow conduit (1), the fluid (21) altering the vibration as a function of the physical characteristic and the flow rate, (C) a detector circuit (10-15) for measuring the altered vibration at a working point (38, 55) and producing a signal representing an uncompensated mass flow rate (M1) of the fluid and (D) a computation circuit for calculating a compensated mass flow rate (M2) of the fluid proportional to the uncompensated rate by 1/ OMEGA 1 , where OMEGA 1 is a driven natural frequency of the flow conduit and n is a number chosen as a function of the working point, the compensated rate thereby reduced of effects of the physical characteristic. A unique mathematical algorithm is also described that allows for a much wider variety of design geometry while maintaining insensitivity to pressure or density without having to measure or compensate for either. In addition, a method is described that allows for the accurate measurement and compensation of both pressure and density.
    • 描述了可以对压力或密度变化敏感的几种径向模式科里奥利质量流量计几何形状和电子电路。 在一个实施例中,仪表包括:(A)用于容纳具有物理特性的流体的流动管道(1),流体(21)适于以未知的速率流入管道中,(B)驱动电路 ,17),用于在所述流动管道(1)中产生振动,所述流体(21)根据所述物理特性和所述流量改变所述振动,(C)用于测量所述改变的检测器电路(10-15) 在工作点(38,55)处的振动并产生表示流体的未补偿质量流量(M1)的信号,(D)用于计算与未补偿的流体成比例的流体的补偿质量流量(M2)的计算电路 速率为1 / OMEGA 1 ,其中OMEGA 1是流动管道的驱动固有频率,n是根据工作点选择的数量,因此补偿的速率降低了物理特性的影响。 还描述了一种独特的数学算法,其允许更宽泛的设计几何形状,同时保持对压力或密度的不敏感性,而不必对其进行测量或补偿。 此外,描述了允许精确测量和补偿压力和密度的方法。
    • 10. 发明申请
    • METHODS AND DEVICES FOR DETERMINING THE RESONANCE FREQUENCY OF PASSIVE MECHANICAL RESONATORS
    • 用于确定被动机械谐振器的谐振频率的方法和装置
    • WO2004096007A2
    • 2004-11-11
    • PCT/IL2004/000345
    • 2004-04-22
    • MICROSENSE CARDIOVASCULAR SYSTEMS 1996GIRMONSKY, DoronEISENBERG, RanAVRAHAM, Nissim
    • GIRMONSKY, DoronEISENBERG, RanAVRAHAM, Nissim
    • A61B
    • G01L9/0008A61B5/0215A61B5/036A61B5/7257G01H13/00G01N2291/02872
    • Methods and systems for determining the resonance frequency of a resonator, using the Doppler effect. An interrogating sonic beam including a carrier frequency and one or more resonator exciting frequencies is directed at a resonator disposed in a measurement environment. Resonator vibrations are excited by the resonator exciting frequencies. The carrier frequency is modulated by the vibrating part(s) of the resonator. The returning signal is received and analyzed to determine the amplitude of the Doppler shifted sideband frequencies. The resulting data is processed to determine the resonator's resonance frequency. Using calibrated resonating sensors having a resonance frequency that varies as a function of a physical parameter in a measurement environment, the method and systems allow determining the value of the physical variable from the sensor's resonance frequency. The methods and systems may be used, inter alia, to determine intraluminal blood pressure in various parts of a cardiovascular system, the pressure of intra-cranial fluids, the pressure of fluids in various bodily cavities by using implantable calibratable resonating pressure sensors. The methods and systems may also be used for determining the pressure in various industrial measurement environments and enclosures. Methods and systems are provided for detecting the sensor and for centering the interrogating beam on the sensor.
    • 使用多普勒效应来确定谐振器的谐振频率的方法和系统。 包括载波频率和一个或多个共振器激励频率的询问声波束针对设置在测量环境中的谐振器。 谐振器振动由谐振器激发频率激发。 载波频率由谐振器的振动部分调制。 接收并分析返回信号以确定多普勒频移边带频率的幅度。 处理所得数据以确定谐振器的谐振频率。 使用具有在测量环境中作为物理参数的函数变化的谐振频率的校准谐振传感器,该方法和系统允许根据传感器的谐振频率来确定物理变量的值。 方法和系统尤其可以用于通过使用可植入的可校准共振压力传感器来确定心血管系统的各个部分的腔内血压,颅内液体的压力,各种体腔中的流体的压力。 方法和系统也可用于确定各种工业测量环境和外壳中的压力。 提供了用于检测传感器并将询问光束对准在传感器上的方法和系统。