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    • 1. 发明授权
    • Vibration and acoustic wave detecting device employing a piezoelectric
element
    • 使用压电元件的振动和声波检测装置
    • US4658650A
    • 1987-04-21
    • US768151
    • 1985-08-22
    • Muneo YorinagaSumiharu YokoiwaHiroaki Yamaguchi
    • Muneo YorinagaSumiharu YokoiwaHiroaki Yamaguchi
    • G01H11/08G01H1/00H04R17/00
    • G01H11/08
    • A vibration and acoustic wave detecting device employing a piezoelectric element has a construction such that a piezoelectric element comprises a first surface electrode disposed on a first surface of the piezoelectric element and having a first output terminal of the detecting device, a second surface electrode opposite to the first surface thereof, a side electrode disposed to surround a side surface of the detecting device and having portions respectively extending over the first and second surfaces, the three electrodes being disposed separately from each other, and a resistor disposed on the piezoelectric element to extend across the first surface electrode and the side electrode and to be connected therewith electrically, and the piezoelectric element further comprises a conductive member which is attached to the piezoelectric element to be in contact with the second surface electrode and the side electrode and hence to provide electrical connection between both electrodes. The conductive member supports the piezoelectric element and also provides its second output terminal. Thus, the piezoelectric element and the resistor are electrically connected in parallel between the first and second output terminals of the detecting device. This construction makes it possible to simply and easily manufacture a detecting device incorporating a resistor for increasing the available frequency bandwidth without causing any problem in the manufacturing process.
    • 采用压电元件的振动和声波检测装置具有以下结构:压电元件包括​​设置在压电元件的第一表面上并具有检测装置的第一输出端的第一表面电极,与第一表面电极相对的第二表面电极 其第一表面,设置成围绕检测装置的侧表面并且具有分别在第一和第二表面上延伸的部分的三个电极彼此分开设置的侧电极和设置在压电元件上以延伸的电阻器 横跨第一表面电极和侧电极并且与其电连接,并且压电元件还包括导电构件,该导电构件附接到压电元件以与第二表面电极和侧电极接触,并且因此提供电 两电极之间的连接。 导电构件支撑压电元件并且还提供其第二输出端子。 因此,压电元件和电阻器并联电连接在检测装置的第一和第二输出端子之间。 这种结构使得可以简单且容易地制造包括用于增加可用频带宽度的电阻器的检测装置,而不会在制造过程中引起任何问题。
    • 6. 发明授权
    • Plasma etching method and device manufacturing method thereby
    • 等离子体蚀刻方法及其制造方法
    • US5575887A
    • 1996-11-19
    • US409530
    • 1995-03-24
    • Takahiko YoshidaKazushi AsamiMuneo YorinagaTsuyoshi Fukada
    • Takahiko YoshidaKazushi AsamiMuneo YorinagaTsuyoshi Fukada
    • H05H1/46C23C14/40C23F4/00H01J37/32H01L21/00H01L21/302H01L21/3065
    • H01L21/67069H01J37/32082H01J37/32697
    • A plasma etching method, which can form concave parts and/or opening parts on a substrate by performing etching at a high speed and does not damage an element part formed on the surface of the substrate, is disclosed. On a semiconductor substrate with one surface as an element part forming surface and the other surface having an insulating film thereon as an etching surface are formed concave parts and/or opening parts by means of etching by applying a high-frequency electric power to a reactive gas and generating plasma thereby. The substrate is disposed on an electrode having grounded electric potential with the insulating film positioned on the lower side and a conductive part material having grounded electric potential is disposed around the substrate. When one end of the conductive part material is contacted with the side of the etching surface of the substrate, electric charge generated on the surface of the substrate moves to the conductive part material, and the electric potential of the substrate is lowered.
    • 公开了一种等离子体蚀刻方法,其可以通过高速蚀刻并且不损坏形成在基板表面上的元件部分而在基板上形成凹部和/或开口部。 在具有一个表面作为元件部分形成表面的半导体衬底上,并且其上具有作为蚀刻表面的绝缘膜的另一表面通过对反应性施加高频电力而通过蚀刻形成凹部和/或开口部分 气体并产生等离子体。 基板设置在具有接地电位的电极上,绝缘膜位于下侧,并且具有接地电位的导电部件材料设置在基板周围。 当导电部件材料的一端与基板的蚀刻表面的一侧接触时,在基板表面上产生的电荷移动到导电部件材料,并且基板的电位降低。
    • 7. 发明授权
    • Process of plasma etching silicon
    • 等离子体蚀刻硅的工艺
    • US5536364A
    • 1996-07-16
    • US253704
    • 1994-06-03
    • Takahiko YoshidaKazushi AsamiMuneo YorinagaYoshimi Yoshino
    • Takahiko YoshidaKazushi AsamiMuneo YorinagaYoshimi Yoshino
    • H01L21/3065H01L21/308
    • H01L21/3065H01L21/3081Y10S438/945
    • A plasma etching process for forming a recess or opening on a silicon substrate by generating plasma between a pair of electrodes in an anode-coupled planar-type plasma etching apparatus and etching the silicon substrate located on one of the electrodes with the plasma, an improvement residing in that an etchant is a mixed gas of sulfur hexafluoride and oxygen and an etching mask covering the substrate, except for a portion where the recess or opening is to be formed, is made of chromium or a chromium compound. Preferably the distance between the electrodes is 10 to 30 mm, the volume ratio of sulfur hexafluoride to oxygen is 90:10 to 60:40, the pressure of the etchant gas is 0.15 to 0.4 Torr (20 to 53 Pa), and the temperature of the substrate is not less than 40.degree. C.
    • 一种等离子体蚀刻工艺,用于通过在阳极耦合的平面型等离子体蚀刻装置中的一对电极之间产生等离子体并且利用等离子体蚀刻位于其中一个电极上的硅衬底,在硅衬底上形成凹部或开口, 其特征在于,蚀刻剂是六氟化硫和氧气的混合气体,除了要形成凹部或开口的部分之外,覆盖基板的蚀刻掩模由铬或铬化合物制成。 优选地,电极之间的距离为10〜30mm,六氟化硫与氧的体积比为90:10〜60:40,蚀刻剂气体的压力为0.15〜0.4乇(20〜53Pa),温度 的基材不低于40℃
    • 9. 发明授权
    • Angular velocity sensor and method of adjusting the same
    • 角速度传感器及其调整方法
    • US5481913A
    • 1996-01-09
    • US134813
    • 1993-10-12
    • Takeshi ItoTomoyuki KandaMuneo Yorinaga
    • Takeshi ItoTomoyuki KandaMuneo Yorinaga
    • G01C19/56G01D5/12G01P9/04
    • G01C19/5607G01D5/12
    • An angular velocity sensor which suppresses the generation of noise in a detector piezo-electric element due to vibration of a vibrator caused by expansion and contraction of a driver piezo-electric element. A driver piezo-electric element 6 is adhered to an upper part on the left-side surface of a first square pole 3 of a vibrator 1 and a driver piezo-electric element 7 is adhered to an upper part on the right-side surface of a second square pole 4. Further, a detector piezo-electric element 8 is adhered to a lower part on the front surface of the first square pole 3 of the vibrator 1 and a detector piezo-electric element 9 is adhered to a lower part on the front surface of the second square pole 4. Here, the driver piezo-electric elements 6, 7 and the detector piezo-electric elements 8, 9 are disposed so as to be deviated so that they will not overlap in the axial direction of the square poles.
    • 一种角速度传感器,其抑制由于驱动压电元件的膨胀和收缩引起的振动器的振动,在检测器压电元件中产生噪声。 驱动器压电元件6粘附在振动器1的第一方棒3的左侧表面上的上部,并且驱动器压电元件7粘附到右侧表面上的上部 第二方形极4.此外,检测器压电元件8粘附到振动器1的第一方棒3的前表面上的下部,并且检测器压电元件9粘附到下部 第二方形极4的前表面。这里,驱动压电元件6,7和检测器压电元件8,9被设置为偏离,使得它们在轴向方向上不会重叠 方极