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Angular rate sensor and mounting structure of angular rate sensor

  • US 7,318,348 B2
  • Filed: 09/01/2005
  • Issued: 01/15/2008
  • Est. Priority Date: 09/02/2004
  • Status: Expired due to Fees
First Claim
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1. An angular rate sensor comprising:

  • a support substrate;

    a drive-purpose vibrator supported on the substrate through a drive beam in such a manner that the vibrator is capable of vibrating in a first direction; and

    an angular velocity detection-purpose vibrator supported on the substrate through a detection beam in such a manner that the vibrator is capable of vibrating in a second direction, which is perpendicular to the first direction, whereinthe angular velocity detection-purpose vibrator extends in the second direction,the detection beam is deformable in the second direction,the drive beam is deformable in the first direction,the sensor detects an angular velocity on the basis of vibration of the angular velocity detection-purpose vibrator in the second direction, the vibration which is caused by a Coriolis force applied to the drive-purpose vibrator in a case where the drive-purpose vibrator is vibrated in the first direction, and where the angular velocity is applied to the sensor in a third direction so that the third direction provides a rotation axis of the angular velocity,the third direction is perpendicular to both of the first and the second directions,the angular velocity detection-purpose vibrator has a length along with the second direction and a width along with the first direction,a ratio between the width and the length of the angular velocity detection-purpose vibrator is equal to or larger than 0.1,the ratio between the width and the length of the angular velocity detection-purpose vibrator is defined as X,the angular velocity detection-purpose vibrator has a displacement amount in the second direction when the drive-purpose vibrator is vibrated in the first direction,the displacement amount of the angular velocity detection-purpose vibrator is defined as Y in millimeters, andthe ratio and the displacement amount have a relationship of;


    Y=0.0148X4

    0.0076X3+0.0015X2

    0.0001X+

    10

    6
    .

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