Acceleration sensor
First Claim
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1. An acceleration sensor comprising:
- a sensor casing;
a fixed substrate secured to the sensor casing;
a displacement substrate disposed below the fixed substrate with a predetermined distance so as to be opposite to the fixed substrate;
supporting means for elastically supporting a periphery of the displacement substrate with respect to the sensor casing;
a weight body secured to the displacement substrate and having a mass sufficient to allow the supporting means to include an elastic deformation by action of an acceleration to be detected;
an annular fixed electrode formed on a lower surface of the fixed substrate and having an annular shape;
an annular displacement electrode formed on an upper surface of the displacement substrate and functioning as an opposite electrode with respect to the annular fixed electrode; and
a detection circuit for outputting an electric signal (Vs) indicating a magnitude (Fx) of an acceleration component in a direction in parallel to a principal surface of the fixed substrate on the basis of a value of change V1 of an electrostatic capacitance of an annular capacitance element (C1) constituted by the annular fixed electrode and the annular displacement electrode.
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Abstract
A magnitude of an acceleration along a direction included within a predetermined plane is detected as an electric signal. A fixed substrate (10) and a displacement substrate (20) are disposed in parallel. The fixed substrate (10) is secured within a cylindrical casing, and the displacement substrate (20) is elastically supported at the periphery thereof within the cylindrical casing by supporting means (30). An annular displacement electrode (E21) and a central displacement electrode (E22) are provided on the upper surface of the displacement substrate (20), and a weight body (40) is secured on the lower surface of the displacement substrate (20). An annular fixed electrode and is a central fixed electrode opposite to the annular displacement electrode (E21) and the central displacement electrode (E22) are provided on the lower surface of the fixed substrate (10), and an annular capacitance element (C1) and a central capacitance element (C2) are constituted. By vibration of the earthquake, etc., the weight body (40) is oscillated. As a result, the displacement substrate (20) is caused to undergo an displacement with respect to the fixed substrate (10). Based on a change of the electrostatic capacitance value of the annular capacitance element (C1), a magnitude of the transverse vibration can be detected. Based on a change of the electrostatic capacitance value of the central capacitance element (C2), a magnitude of longitudinal vibration can be detected.
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Citations
16 Claims
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1. An acceleration sensor comprising:
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a sensor casing; a fixed substrate secured to the sensor casing; a displacement substrate disposed below the fixed substrate with a predetermined distance so as to be opposite to the fixed substrate; supporting means for elastically supporting a periphery of the displacement substrate with respect to the sensor casing; a weight body secured to the displacement substrate and having a mass sufficient to allow the supporting means to include an elastic deformation by action of an acceleration to be detected; an annular fixed electrode formed on a lower surface of the fixed substrate and having an annular shape; an annular displacement electrode formed on an upper surface of the displacement substrate and functioning as an opposite electrode with respect to the annular fixed electrode; and a detection circuit for outputting an electric signal (Vs) indicating a magnitude (Fx) of an acceleration component in a direction in parallel to a principal surface of the fixed substrate on the basis of a value of change V1 of an electrostatic capacitance of an annular capacitance element (C1) constituted by the annular fixed electrode and the annular displacement electrode. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
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7. An acceleration sensor as set forth in claim 6:
wherein there is employed a configuration in which a distance d1 between a pair of electrodes (E11, E21) constituting the annular capacitance element (C1) and a distance d2 between a pair of electrodes (E12, E22) constituting the central capacitance element (C2) are equal to each other, and an area S1 of respective electrodes constituting the annular capacitance element and an area S2 of respective electrodes constituting the central capacitance element are equal to each other.
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8. An acceleration sensor as set forth in claim 2
wherein the detection circuit includes a circuit (71) for multiplying a value of change V1 of the electrostatic capacitance of the annular capacitance element (C1) by a predetermined constant K11 to obtain a product K11· - V1, a circuit (72) for multiplying said value of change V1 by a predetermined constant K21 to obtain a product K21·
V1, a circuit (73) for multiplying a value of change V2 of the electrostatic capacitance of the central capacitance element (C2) by a predetermined constant K12 to obtain a product K12·
V2, a circuit (74) for multiplying said value of change V2 by a predetermined constant K22 to obtain a product K22·
V2, a circuit (75) for performing an operation expressed as (K11·
V1)-(K12·
V2) to obtain a value Vs, and a circuit (76) for performing an operation expressed as (K21·
V1)-(K22·
V2) to obtain a value Vp;wherein said detection circuit outputs an electric signal indicting a magnitude (Fx) of an acceleration component in a direction in parallel to the principal surface of the fixed substrate on the basis of the value Vs and an electric signal indicating a magnitude (Fz) of an acceleration component in a direction perpendicular to the principal surface of the fixed substrate on the basis of the value Vp.
- V1, a circuit (72) for multiplying said value of change V1 by a predetermined constant K21 to obtain a product K21·
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9. An acceleration sensor as set forth in claim 2:
wherein the annular fixed electrode and the annular displacement electrode have a shape of non-rotation symmetrical with respect to a center axis passing through a center of gravity of the weight body and perpendicular to a principal surface of the fixed substrate.
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10. An acceleration sensor as set forth in claim 2:
wherein the annular displacement electrode and the central displacement electrode are a physically single electrode means (120,
220).
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11. An acceleration sensor as set forth in claim 10:
wherein the displacement substrate (120,
220) is constituted by conductive material, and a portion of the displacement substrate is used as a single common electrode.
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12. An acceleration sensor as set forth in claim 2:
wherein the annular fixed electrode and the central fixed electrode are constituted by a physically single common electrode.
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13. An acceleration sensor as set forth in claim 12:
wherein the fixed substrate is constituted by conductive material, and a portion of the fixed substrate is used as a single common electrode.
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14. An acceleration sensor as set forth in claim 1:
wherein the displacement substrate and supporting means are a flexible substrate (120,
220) having a plurality of slits (122,
225) for constituting a diaphragm.
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15. An acceleration sensor as set forth in claim 14:
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wherein a first group of slits (122a, 122b) are located along annular lines surrounding a central point (O) of the flexible substrate (120) and a second group of slits (122c, 122d) are located along radial lines from the central point of the flexible substrate toward an external so that a structure such that respective portions of the diaphragm are physically connected by beam portions; and wherein a peripheral portion (121) of the diaphragm is secured to the sensor casing (150) to provide a structure in which a displacement is produced in a central part of the diaphragm on the basis of an elastic deformation of the beam portions.
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16. An acceleration sensor as set forth in claim 14:
wherein the respective slits are provided so that when the flexible substrate is rotated by a predetermined angle θ
Within a plane including a principal surface thereof, a pattern of the slits is substantially in correspondence with a pattern before rotation.
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Specification
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Current AssigneeWacoh Company
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Original AssigneeWacoh Company
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InventorsOkada, Kazuhiro
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Primary Examiner(s)Williams, Hezron E.
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Assistant Examiner(s)MOLLER, RICHARD ALAN
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Application NumberUS08/776,172Time in Patent Office713 DaysField of Search73/514.16, 73/514.24, 73/514.32, 73/514.35, 73/514.38, 73/862.041, 73/862.042US Class Current73/514.32CPC Class CodesG01P 15/125 by capacitive pick-upG01P 15/18 in two or more dimensionsG01P 2015/084 the mass being suspended at...
