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    Physical sensor and method of process
    1.
    发明授权
    Physical sensor and method of process 有权
    物理传感器和过程方法

    公开(公告)号:US07905149B2

    公开(公告)日:2011-03-15

    申请号:US12175347

    申请日:2008-07-17

    申请人: Kengo Suzuki Takeshi Harada Yasuo Osone Masahide Hayashi Teruhisa Akashi

    发明人: Kengo Suzuki Takeshi Harada Yasuo Osone Masahide Hayashi Teruhisa Akashi

    IPC分类号: G01B7/16

    CPC分类号: G01P15/0802 B81B2207/096 B81C1/00301 G01C19/5719

    摘要: There is provided a physical sensor which ensures long-term reliability and can be miniaturized and increased in density, and a method of producing the same. A physical sensor includes a supporting substrate, an element substrate that includes a sensor element and is joined to the supporting substrate through an insulating layer, a glass cap that covers an area of the sensor element and is joined to the element substrate, and a built-in electrode that is electrically connected to the sensor element. The built-in electrode is formed in a through hole passing through the element substrate, the insulating layer and the supporting substrate. A portion of the glass cap that covers an area of the built-in electrode is anodically bonded to the element substrate.

    摘要翻译: 提供了一种物理传感器,其确保了长期可靠性并且可以小型化和增加密度,以及其制造方法。 物理传感器包括支撑基板,包括传感器元件并通过绝缘层与支撑基板接合的元件基板,覆盖传感器元件的区域并与元件基板接合的玻璃盖,以及内置 电连接到传感器元件。 内置电极形成在穿过元件基板,绝缘层和支撑基板的通孔中。 覆盖内置电极的区域的玻璃帽的一部分阳极接合到元件基板。

    Combined sensor and its fabrication method
    2.
    发明申请
    Combined sensor and its fabrication method 审中-公开
    组合传感器及其制造方法

    公开(公告)号:US20070062282A1

    公开(公告)日:2007-03-22

    申请号:US11516927

    申请日:2006-09-06

    申请人: Teruhisa Akashi Ryoji Okada Masahide Hayashi Kengo Suzuki

    发明人: Teruhisa Akashi Ryoji Okada Masahide Hayashi Kengo Suzuki

    IPC分类号: G01P15/08

    CPC分类号: G01P15/0802 G01C19/5719 G01P15/097 G01P15/14 G01P15/18 G01P2015/082

    摘要: A sensor structure using vibrating sensor elements which can detect an angular rate and accelerations in two axes at the same time is provided. 2 sets of vibration units which vibrate in out-of-phase mode (tunning-fork vibration) and include four vibrating sensor elements of the approximately same shape supported on a substrate in a vibratile state are provided and the vibrating sensor elements are disposed so that vibration axes of the vibration units cross each other at right angles. Each of the vibrating sensor elements includes a pair of detection units and adjustment units for adjusting a vibration frequency. The vibrating sensor elements constitute a combined sensor having supporting structure for supporting the vibrating sensor elements independently so that the vibrating sensor elements do not interfere with each other.

    摘要翻译: 提供了使用能够同时检测两个轴的角速度和加速度的振动传感器元件的传感器结构。 提供了2组以异相模式(调音叉振动)振动的振动单元,并且包括以振动状态支撑在基板上的大致相同形状的四个振动传感器元件,并且将振动传感器元件设置成 振动单元的振动轴线成直角交叉。 每个振动传感器元件包括一对检测单元和用于调节振动频率的调节单元。 振动传感器元件构成具有用于独立地支撑振动传感器元件的支撑结构的组合传感器,使得振动传感器元件彼此不干涉。

    Composite Sensor and Method for Manufacturing The Same
    3.
    发明申请
    Composite Sensor and Method for Manufacturing The Same 审中-公开
    复合传感器及其制造方法

    公开(公告)号:US20140260612A1

    公开(公告)日:2014-09-18

    申请号:US14353635

    申请日:2011-11-28

    申请人: Takanori Aono Kengo Suzuki Masahide Hayashi Heewon Jeong

    发明人: Takanori Aono Kengo Suzuki Masahide Hayashi Heewon Jeong

    IPC分类号: G01C19/5705

    CPC分类号: G01C19/5705 B81B2201/0235 B81B2201/0242 B81C1/00285 G01C19/5783 G01P15/0802 G01P2015/088

    摘要: The disclosure provides a composite sensor with high reliability and a method for manufacturing the same. A moving body of an acceleration sensor and an oscillator of an angular velocity sensor are provided on the same sensor wafer, while being partitioned by a wall, and a cap wafer is formed to have a gap that corresponds to each of the sensors. A through hole and a bump are formed in a sensor sealing portion, the acceleration sensor is sealed in an air atmosphere in a first sealing process, and in a second sealing process, the angular velocity sensor is sealed by bringing the sensors and the cap into contact with each other and joining the sensors and the cap in a vacuum atmosphere. Thereafter, a composite sensor wafer is cut, a circuit board and a wiring board are mounted thereon, and a composite sensor is formed.

    摘要翻译: 本公开提供了具有高可靠性的复合传感器及其制造方法。 加速度传感器的移动体和角速度传感器的振荡器设置在相同的传感器晶片上,同时由壁分隔,并且盖晶片形成为具有与每个传感器对应的间隙。 在传感器密封部中形成有贯通孔和凸块,在第一密封工序中将加速度传感器密封在空气气氛中,在第二密封工序中,通过将传感器和盖体 彼此接触并在真空环境中连接传感器和盖子。 此后,将复合传感器晶片切割,电路板和布线板安装在其上,并且形成复合传感器。

    Combined Sensor and Method for Manufacturing the Same
    5.
    发明申请
    Combined Sensor and Method for Manufacturing the Same 有权
    组合传感器及其制造方法

    公开(公告)号:US20130068020A1

    公开(公告)日:2013-03-21

    申请号:US13699235

    申请日:2011-05-20

    申请人: Takanori Aono Kengo Suzuki Akira Koide Masahide Hayashi

    发明人: Takanori Aono Kengo Suzuki Akira Koide Masahide Hayashi

    IPC分类号: G01P3/44 H05K3/30 H05K3/28 B23P11/00

    CPC分类号: G01P15/0802 B81B2201/0235 B81B2201/0242 B81B2203/0315 B81B2207/095 B81C1/00293 B81C2203/031 G01C19/56 G01C19/5783 G01P15/125 H01L21/561 H01L23/315 H01L24/94 H01L2924/12042 H01L2924/15788 H01L2924/16235 Y10T29/49146 Y10T29/49826 H01L2924/00

    摘要: An acceleration sensor and an angular velocity sensor are sealed in respective pressure atmospheres suitable therefor in the process of a series of bonding steps, thereby improving the detection sensibilities of the sensors.A movable member 111 of an acceleration sensor 11 and a vibrator 121 of an angular velocity sensor 12 are fabricated on the same sensor wafer 10 with a wall 16 interposed therebetween. A cap wafer 20 is formed in which gaps 21, 22 corresponding to the movable member 111 of the acceleration sensor 11 and the vibrator 121 of the angular velocity sensor 12 are provided. Bumps 23 are disposed near the gap 22 of the angular velocity sensor 12. The acceleration sensor 11 is sealed at atmospheric pressure. Then, the angular velocity sensor 12 is subjected to high temperature and a high-load and is vacuum-sealed. Thereafter, cutting with a diamond grindstone and mounting of circuit substrates and a wiring substrate are performed to form a combined sensor.

    摘要翻译: 加速度传感器和角速度传感器在一系列接合步骤的过程中被密封在适合于其的相应的压力环境中,从而提高传感器的检测灵敏度。 加速度传感器11的可动部件111和角速度传感器12的振动器121被制造在相同的传感器晶片10上,壁16插入其中。 形成盖片20,其中设置有与加速度传感器11的可动构件111对应的间隙21,22和角速度传感器12的振子121。 凸起23设置在角速度传感器12的间隙22附近。加速度传感器11在大气压下被密封。 然后,对角速度传感器12进行高温高负荷的真空密封。 此后,进行用金刚石磨石切割并安装电路基板和布线基板以形成组合的传感器。

    Physical Quantity Detector
    8.
    发明申请
    Physical Quantity Detector 有权
    物理量检测器

    公开(公告)号:US20130241013A1

    公开(公告)日:2013-09-19

    申请号:US13878776

    申请日:2011-10-07

    申请人: Kiyoko Yamanaka Kengo Suzuki Kazunori Ohta Heewon Jeong Masahide Hayashi

    发明人: Kiyoko Yamanaka Kengo Suzuki Kazunori Ohta Heewon Jeong Masahide Hayashi

    IPC分类号: B81B7/00

    CPC分类号: B81B7/0058 G01C19/5783 G01P15/125 G01P2015/0814 G01P2015/0845 H01L24/32 H01L2224/05554 H01L2224/48091 H01L2224/49171 H01L2224/73265 H01L2924/14 H01L2924/00014 H01L2924/00

    摘要: Provided is an inertial sensor device comprising a detection part having an MEMS structure, wherein convenience during sensor installation is ensured while erroneous operation caused by the application of external vibration is controlled. To achieve this objective, an anti-vibration structure (103) is provided in the inertial sensor device, between a semiconductor chip (102) mounted on a package substrate and a semiconductor chip (104) comprising a sensor detection part. The anti-vibration structure (103) has a structure in which the periphery of an anti-vibration part (103a) is surrounded by an anti-vibration part (103b) comprising a material having a larger Young's modulus.

    摘要翻译: 提供了一种惯性传感器装置,其包括具有MEMS结构的检测部件,其中,在控制由施加外部振动引起的错误操作的同时确保传感器安装期间的便利性。 为了实现该目的,在惯性传感器装置中,在安装在封装基板上的半导体芯片(102)和包括传感器检测部件的半导体芯片(104)之间设置防振结构(103)。 防振结构(103)具有防振部(103a)的周围由包含杨氏模量较大的材料的防振部(103b)包围的结构。

    Spectrometer
    10.
    发明授权
    Spectrometer 有权
    光谱仪

    公开(公告)号:US08587779B2

    公开(公告)日:2013-11-19

    申请号:US13126523

    申请日:2009-09-24

    申请人: Kazuya Iguchi Kengo Suzuki

    发明人: Kazuya Iguchi Kengo Suzuki

    IPC分类号: G01J3/28

    CPC分类号: G01N21/0332 G01J3/0254 G01J3/0286 G01J3/0291 G01N21/255 G01N21/645 G01N2201/065

    摘要: A spectrometer 1A is provided with an integrating sphere 20 for observing measured light emitted from a sample S of a measurement target, and a Dewar vessel 50 which retains a medium R for regulating temperature of the sample S, so as to cover the sample S and a second container portion 50b of which is located so as to face the interior of the integrating sphere 20. The sample S can be easily regulated at a desired temperature with the use of the Dewar vessel 50 retaining the medium R so as to cover the sample S. As the second container portion 50b is located so as to face the interior of the integrating sphere 20, the temperature of the sample S is regulated by the medium R, while inhibiting an external ambience around the integrating sphere from affecting the sample S. Therefore, the sample S can be efficiently regulated at a desired temperature.

    摘要翻译: 光谱仪1A设置有用于观察从测量对象的样品S发射的测量光的积分球20和保持用于调节样品S的温度的介质R的杜瓦容器50,以覆盖样品S和 其第二容器部分50b定位成面对积分球20的内部。使用保持介质R的杜瓦容器50以便覆盖样品,可以容易地将样品S调节到期望的温度 当第二容器部分50b定位成面对积分球20的内部时,样品S的温度由介质R调节,同时抑制积分球周围的外部环境影响样品S. 因此,可以将样品S有效地调节到期望的温度。