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    • 1. 发明授权
    • Capacitive differential pressure detector
    • 电容式差压检测器
    • US5056369A
    • 1991-10-15
    • US507843
    • 1990-04-12
    • Mitsuru TamaiTadanori YuharaKimihiro NakamuraKazuaki KitamuraToshiyuki TakanoTeizo TakahamaMikihiko MatsudaShinichi Souma
    • Mitsuru TamaiTadanori YuharaKimihiro NakamuraKazuaki KitamuraToshiyuki TakanoTeizo TakahamaMikihiko MatsudaShinichi Souma
    • G01L13/06G01L9/00
    • G01L9/0073
    • The present invention is directed to a capacitive differential pressure detector comprising a diaphragm disposed between two electrodes. In a first embodiment, each of the electrodes comprises two conductive plates with an insulator disposed therebetween. Step-like portions are formed in the conductive plate nearest the diaphragm. In a second embodiment, the plate nearest the diaphragm is insulative with a conductive film formed thereon. In a third embodiment, at least one groove is formed in the plate nearest the diaphragm. The groove is formed in a surface of the plate which faces the diaphragm. The groove also intersects a pressure guide hole. In a fourth embodiment, a substrate is disposed on a surface of the plate farthest from said diaphragm. In a fifth embodiment, an insulating layer has the same coefficient of thermal expansion as the conductive plates. In a sixth embodiment, the diaphragm is etched in order to form a circular flexible part, a centrally disposed displacing part, and a bonding part.
    • 本发明涉及一种电容差压检测器,其包括设置在两个电极之间的隔膜。 在第一实施例中,每个电极包括两个导电板,绝缘体位于它们之间。 在最靠近隔膜的导电板中形成阶梯状部分。 在第二实施例中,最靠近隔膜的板是绝缘的,其上形成有导电膜。 在第三实施例中,在最靠近隔膜的板中形成至少一个凹槽。 凹槽形成在板的面向隔膜的表面中。 凹槽还与压力导向孔相交。 在第四实施例中,基板设置在距所述隔膜最远的板的表面上。 在第五实施例中,绝缘层具有与导电板相同的热膨胀系数。 在第六实施例中,为了形成圆形柔性部分,中心设置的位移部分和接合部分,蚀刻隔膜。
    • 4. 发明授权
    • Electrostatic capacity type differential pressure detector
    • 静电容量型差压检测器
    • US5343756A
    • 1994-09-06
    • US917276
    • 1992-07-23
    • Kimihiro NakamuraTadanori YuharaToshiyuki TakanoHironobu Yao
    • Kimihiro NakamuraTadanori YuharaToshiyuki TakanoHironobu Yao
    • G01L9/00G01L9/12
    • G01L9/0073
    • An electrostatic capacity type differential pressure detector wherein capacitances are formed between a diaphragm as a movable electrode which is subjected to displacement depending on a differential pressure and fixed electrodes which are arranged on opposite sides of the diaphragm. Each of the fixed electrodes has a first electrically conductive plate closely adjoining and confronting a surface of a central portion of the diaphragm. An annular support is joined to the surface of a circumferential edge portion of the diaphragm and is spaced from and surrounds the outer circumferential surface of the first electrically conductive plate. A solid insulator completely fills an annular space between the first electrically conductive plate and the annular support and is spaced from the diaphragm. An insulating plate is commonly joined to each surface of the annular support and the first electrically conductive plate on the side of the annular support and conductive plate opposite the diaphragm; and a second electrically conductive plate is joined to the surface of the insulating plate opposite the diaphragm and is electrically connected with the first electrically conductive plate. There is a pressure introducing hole extending through the first and second electrically conductive plates and through the insulating plate. Both the first electrically conductive plate and the annular support are composed of silicon, the insulator being composed of a glass material which has a thermal expansion coefficient substantially that of silicon.
    • 一种静电电容型差压检测器,其中电容被形成在作为根据差压的位移的可动电极的膜片和布置在隔膜的相对侧上的固定电极之间。 每个固定电极具有紧密邻接并面对隔膜的中心部分的表面的第一导电板。 环形支撑件连接到隔膜的周向边缘部分的表面,并且与第一导电板的外周表面间隔开并且围绕第一导电板的外周表面。 固体绝缘体完全填充第一导电板和环形支撑件之间的环形空间并且与隔膜间隔开。 绝缘板通常连接到环形支撑件的每个表面,并且第一导电板在与隔膜相对的环形支撑件和导电板的侧面上; 并且第二导电板接合到与隔膜相对的绝缘板的表面,并与第一导电板电连接。 存在延伸穿过第一和第二导电板并通过绝缘板的压力引入孔。 第一导电板和环形支撑件都由硅组成,绝缘体由具有基本上为硅的热膨胀系数的玻璃材料组成。
    • 5. 发明授权
    • Capacitive differential pressure detector
    • 电容差压检测器
    • US5925824A
    • 1999-07-20
    • US884355
    • 1997-06-27
    • Shinichi SomaKimihiro NakamuraTadanori Yuhara
    • Shinichi SomaKimihiro NakamuraTadanori Yuhara
    • G01L13/06G01L9/00G01L27/00G01L9/12
    • G01L9/0075
    • In a capacitive differential pressure detector, an insulating plate (1) of a fixed electrode is covered with a gold conductive film. A conductive film (2) integrally includes an entire inner area (2a) of a center hole (1a), a square ring-shaped area (2b) surrounding the center hole (1a) on the side opposite to the conductive plate (12) and a band-shaped area (2c) extending therefrom in a centrifugal direction to reach the outer periphery. The conductive film (2) is electrically communicated with the conductive plate at the terminating position of the entire inner area (2a) and also with aluminum films at the terminating position of the band-shaped area (2c). Therefore, the total area of the ring-shaped area (2b) and the band-shaped area (2c) can be decreased so that Cs1+Cs2 is decreased to improve the static pressure span characteristic.
    • 在电容差压检测器中,固定电极的绝缘板(1)被金导电膜覆盖。 导电膜(2)整体地包括中心孔(1a)的整个内部区域(2a),围绕中心孔(1a)的与导电板(12)相对的一侧的方形环形区域(2b) 以及从离心方向向外延伸的带状区域(2c)。 导电膜(2)在整个内部区域(2a)的终止位置处与导电板电连通,并且还在带状区域(2c)的终止位置处与铝膜电连通。 因此,可以减小环状区域(2b)和带状区域(2c)的总面积,使得Cs1 + Cs2降低,以提高静压跨度特性。
    • 8. 发明授权
    • Time measurement device
    • 时间测量装置
    • US5963510A
    • 1999-10-05
    • US922857
    • 1997-09-03
    • Takahiro KudoMasato TakahashiNobuhisa KatoKimihiro Nakamura
    • Takahiro KudoMasato TakahashiNobuhisa KatoKimihiro Nakamura
    • G01R23/02G01R29/02G04F10/04H03M1/50H03M1/60G04F8/00
    • G04F10/005G04F10/04G01R23/02G01R29/02
    • A time measurement device for measuring a duration of an input signal based on a clock signal comprises a first gate for outputting a gate signal based on an input signal; a first holding circuit for holding the gate signal at the time of falling of the clock signal; a second holding circuit for holding the gate signal at the time of rising of the clock signal; a second gate for passing the clock signal according to either of the widths of output signals of the first and second holding circuits; a third holding circuit for holding an output state of the second holding circuit at the timing of a leading edge of an output of the first holding circuit; a fourth holding circuit for holding an output state of the second holding circuit at the timing of a trailing edge of an output of the first holding circuit; and a counter for counting the clock signal output from the second gate. The count value is corrected based on the outputs of the third and fourth holding circuits.
    • 用于基于时钟信号测量输入信号的持续时间的时间测量装置包括:用于基于输入信号输出门信号的第一门; 第一保持电路,用于在时钟信号下降时保持该门信号; 第二保持电路,用于在时钟信号上升时保持该门信号; 第二栅极,用于根据第一和第二保持电路的输出信号的宽度中的任一个传递时钟信号; 第三保持电路,用于在第一保持电路的输出的前沿的定时保持第二保持电路的输出状态; 第四保持电路,用于在第一保持电路的输出的后沿的定时处保持第二保持电路的输出状态; 以及用于对从第二门输出的时钟信号进行计数的计数器。 基于第三和第四保持电路的输出校正计数值。