Composite sensor and acceleration sensor
First Claim
1. A composite sensor comprising:
- a substrate;
first supporting units provided on the substrate;
a first vibrator facing the substrate with a gap therebetween;
first supporting beams arranged to connect the first vibrator to the first supporting units and to support the first vibrator such that the first vibrator can vibrate in an X-axis direction among three axial directions including X, Y, and Z axes substantially perpendicular to each other;
an angular-velocity-detecting vibrator provided to the first vibrator;
angular-velocity-detecting supporting beams arranged to connect the angular-velocity-detecting vibrator to the first vibrator and to support the angular-velocity-detecting vibrator such that the angular-velocity-detecting vibrator can be displaced in one of the Y-axis direction and the Z-axis direction;
a vibration generator enabling the first vibrator to vibrate in the X-axis direction;
an angular-velocity-detecting displacement detector arranged to detect an amount of displacement when the angular-velocity-detecting vibrator is displaced in the one of the Y-axis direction and the Z-axis direction in a state in which the first vibrator is vibrating in the X-axis direction;
second supporting units provided on the substrate;
a second vibrator facing the substrate with a gap therebetween;
second supporting beams connecting the second vibrator to the second supporting units and supporting the second vibrator such that the second vibrator can be displaced in one of the X-axis direction and the Y-axis direction;
an acceleration-detecting displacement detector provided between the first and second vibrators and being arranged to detect an amount of displacement when the second vibrator is displaced in the one of the X-axis direction and the Y-axis direction;
a vibration monitor arranged to monitor displacement of the first vibrator when the first vibrator vibrates in the X-axis direction; and
an acceleration detector arranged to detect acceleration that acts on the second vibrator by performing synchronous detection on a displacement detection signal from the acceleration-detecting displacement detector using a monitor signal from the vibration monitor.
1 Assignment
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Accused Products
Abstract
In an acceleration sensor, a first vibrator is arranged on a surface of a substrate such that the vibrator can vibrate in an X-axis direction. An angular-velocity-detecting vibrator is arranged inside the first vibrator such that the vibrator can be displaced in a Y-axis direction. A vibration generating unit and a vibration monitor unit are provided between the substrate and the first vibrator. An angular-velocity-detecting displacement detecting unit is provided between the substrate and the angular-velocity-detecting vibrator. A second vibrator is provided outside the first vibrator such that the vibrator can be displaced in the Y-axis direction. An acceleration-detecting displacement detecting unit is provided between the first and second vibrators. An angular velocity detecting circuit detects angular velocity by performing synchronous detection on a displacement detection signal from the displacement detecting unit using a monitor signal from the vibration monitor unit. On the other hand, an acceleration detecting circuit detects acceleration by performing synchronous detection on a displacement detection signal from the displacement detecting unit using a monitor signal from the vibration monitor unit.
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Citations
11 Claims
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1. A composite sensor comprising:
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a substrate; first supporting units provided on the substrate; a first vibrator facing the substrate with a gap therebetween; first supporting beams arranged to connect the first vibrator to the first supporting units and to support the first vibrator such that the first vibrator can vibrate in an X-axis direction among three axial directions including X, Y, and Z axes substantially perpendicular to each other; an angular-velocity-detecting vibrator provided to the first vibrator; angular-velocity-detecting supporting beams arranged to connect the angular-velocity-detecting vibrator to the first vibrator and to support the angular-velocity-detecting vibrator such that the angular-velocity-detecting vibrator can be displaced in one of the Y-axis direction and the Z-axis direction; a vibration generator enabling the first vibrator to vibrate in the X-axis direction; an angular-velocity-detecting displacement detector arranged to detect an amount of displacement when the angular-velocity-detecting vibrator is displaced in the one of the Y-axis direction and the Z-axis direction in a state in which the first vibrator is vibrating in the X-axis direction; second supporting units provided on the substrate; a second vibrator facing the substrate with a gap therebetween; second supporting beams connecting the second vibrator to the second supporting units and supporting the second vibrator such that the second vibrator can be displaced in one of the X-axis direction and the Y-axis direction; an acceleration-detecting displacement detector provided between the first and second vibrators and being arranged to detect an amount of displacement when the second vibrator is displaced in the one of the X-axis direction and the Y-axis direction; a vibration monitor arranged to monitor displacement of the first vibrator when the first vibrator vibrates in the X-axis direction; and an acceleration detector arranged to detect acceleration that acts on the second vibrator by performing synchronous detection on a displacement detection signal from the acceleration-detecting displacement detector using a monitor signal from the vibration monitor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A composite sensor comprising:
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a substrate; first supporting units provided on the substrate; a first vibrator facing the substrate with a gap therebetween; first supporting beams arranged to connect the first vibrator to the first supporting units and to support the first vibrator such that the first vibrator can vibrate in an X-axis direction among three axial directions including X, Y, and Z axes substantially perpendicular to each other; an angular-velocity-detecting vibrator provided to the first vibrator; angular-velocity-detecting supporting beams arranged to connect the angular-velocity-detecting vibrator to the first vibrator and to support the angular-velocity-detecting vibrator such that the angular-velocity-detecting vibrator can be displaced in one of the Y-axis direction and the Z-axis direction; a vibration generator enabling the first vibrator to vibrate in the X-axis direction; an angular-velocity-detecting displacement detector arranged to detect an amount of displacement when the angular-velocity-detecting vibrator is displaced in one of the Y-axis direction and the Z-axis direction in a state in which the first vibrator is vibrating in the X-axis direction; second supporting units provided on the substrate; a second vibrator facing the substrate with a gap therebetween; second supporting beams arranged to connect the second vibrator to the second supporting units and arranged to support the second vibrator such that the second vibrator can be displaced in a direction that is perpendicular to the Z axis and that is inclined with respect to the X axis and the Y axis; an acceleration-detecting displacement detector provided between the first and second vibrators and arranged to detect an amount of displacement when the second vibrator is displaced in the Y-axis direction; third supporting units provided on the substrate; a third vibrator facing the substrate with a gap therebetween; third supporting beams arranged to connect the third vibrator to the third supporting units and to support the third vibrator such that the third vibrator can be displaced in a direction that is orthogonal to the Z axis, that is inclined with respect to the X axis and the Y axis, and that is different from a direction in which the second vibrator is displaced; another acceleration-detecting displacement detector provided between the first and third vibrators and arranged to detect an amount of displacement when the third vibrator is displaced in the Y-axis direction; a vibration monitor arranged to monitor displacement of the first vibrator when the first vibrator vibrates in the X-axis direction; and an acceleration detector arranged to detect a first acceleration by performing synchronous detection on the difference between displacement detection signals from the two acceleration-detecting displacement detectors using a monitor signal from the vibration monitor and to detect a second acceleration by performing synchronous detection on the sum of displacement detection signals from the two acceleration-detecting displacement detector using a monitor signal from the vibration monitor.
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11. An acceleration sensor comprising:
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a substrate; first supporting units provided on the substrate; a first vibrator facing the substrate with a gap therebetween; first supporting beams arranged to connect the first vibrator to the first supporting units and to support the first vibrator such that the first vibrator can vibrate in an X-axis direction among three axial directions including X, Y, and Z axes substantially perpendicular to each other; a vibration generator enabling the first vibrator to vibrate in the X-axis direction; second supporting units provided on the substrate; a second vibrator facing the substrate with a gap therebetween; second supporting beams arranged to connect the second vibrator to the second supporting units and to support the second vibrator such that the second vibrator can be displaced in one of the X-axis direction or the Y-axis direction; an acceleration-detecting displacement detector provided between the first and second vibrators and arranged to detect an amount of displacement when the second vibrator is displaced in the one of the X-axis direction or the Y-axis direction; a vibration monitor arranged to monitor displacement of the first vibrator when the first vibrator vibrates in the X-axis direction; and an acceleration detector arranged to detect acceleration that acts on the second vibrator by performing synchronous detection on a displacement detection signal from the acceleration-detecting displacement detector using a monitor signal from the vibration monitor.
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Specification