Inertial sensor and combined sensor therewith
First Claim
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1. An inertial sensor, comprising:
- a detecting element which includes a first capacitor portion that is made up of a first detection electrode provided in a fixed portion and a first movable electrode provided in a movable portion, and a second capacitor portion that is made up of a second detection electrode provided in the fixed portion and a second movable electrode provided in the movable portion;
a drive circuit operable to apply an AC-bias signal voltage to the first and second movable electrode electrodes;
a detection circuit which includes;
a differential-type detector operable to detect a difference in a quantity of an electric charge between the first and second detection electrodes, wherein the first and second movable electrodes are displaced according to an acceleration which is applied to the detecting element, and wherein a quantity of an electric charge which is generated in the second detection electrode decreases when a quantity of an electric charge which is generated in the first detection electrode increases, and conversely, the quantity of an electric charge which is generated in the second detection electrode increases when the quantity of an electric charge which is generated in the first detection electrode decreases;
a synchronous demodulator operable to demodulate an output signal of the differential-type detector synchronously with the AC-bias signal voltage; and
an output amplifier operable to regulate an output signal from the synchronous demodulator; and
a self-diagnosis circuit operable to apply the AC-bias signal voltage ahead of the synchronous demodulator, and to output a diagnostic signal indicating whether there is an abnormality in at least one of the detecting element and the detection circuit.
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Abstract
An inertial sensor is provided which includes a self-diagnosis circuit which applies an AC-bias signal voltage ahead of a synchronous demodulator, and thereby, supplies a diagnostic signal for detecting an abnormality in at least one of a detecting element and a detection circuit. This inertial sensor is capable of actively diagnosing whether or not there is an abnormality in the sensor itself, only by monitoring whether a predetermined DC offset signal is obtained from a sensor output terminal of the inertial sensor.
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Citations
11 Claims
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1. An inertial sensor, comprising:
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a detecting element which includes a first capacitor portion that is made up of a first detection electrode provided in a fixed portion and a first movable electrode provided in a movable portion, and a second capacitor portion that is made up of a second detection electrode provided in the fixed portion and a second movable electrode provided in the movable portion; a drive circuit operable to apply an AC-bias signal voltage to the first and second movable electrode electrodes; a detection circuit which includes; a differential-type detector operable to detect a difference in a quantity of an electric charge between the first and second detection electrodes, wherein the first and second movable electrodes are displaced according to an acceleration which is applied to the detecting element, and wherein a quantity of an electric charge which is generated in the second detection electrode decreases when a quantity of an electric charge which is generated in the first detection electrode increases, and conversely, the quantity of an electric charge which is generated in the second detection electrode increases when the quantity of an electric charge which is generated in the first detection electrode decreases; a synchronous demodulator operable to demodulate an output signal of the differential-type detector synchronously with the AC-bias signal voltage; and an output amplifier operable to regulate an output signal from the synchronous demodulator; and a self-diagnosis circuit operable to apply the AC-bias signal voltage ahead of the synchronous demodulator, and to output a diagnostic signal indicating whether there is an abnormality in at least one of the detecting element and the detection circuit.
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2. The inertial sensor according to claim 1,
wherein the first and second detection electrodes face each other at a predetermined distance, and the first and second movable electrodes are disposed midway between the first and second detection electrodes and opposite to the first and second detection electrodes, respectively; - and
wherein the fixed portion and the movable portion are configured so that an acceleration is applied in the directions perpendicular to the electrode surfaces of the first and second detection electrodes, and thereby, the electrode surfaces of the first and second movable electrodes are displaced in the directions perpendicular to the electrode surfaces of the first and second detection electrodes.
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3. The inertial sensor according to claim 1, wherein the fixed portion and the movable portion are made of crystal, silicone, or ceramics.
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4. The inertial sensor according to claim 1, wherein the self-diagnosis circuit includes a regulator operable to regulate the AC-bias signal voltage which is outputted from the drive circuit, and an injector operable to supply a signal from the regulator ahead of the synchronous demodulator.
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5. The inertial sensor according to claim 4,
wherein the self-diagnosis circuit further includes a switch operable to switch between a state where the self-diagnosis circuit is in operation and a state where it is not in operation; - and
wherein the switch is placed between the regulator and the injector.
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6. The inertial sensor according to claim 5, wherein the switch includes a circuit breaker operable to connect or disconnect, to or from the injector, the AC-bias signal voltage which is outputted from the drive circuit according to an operation from outside.
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7. The inertial sensor according to claim 5, wherein the switch is a circuit breaker which includes a timer circuit for connecting or disconnecting, to or from the injector, the AC-bias signal voltage which is outputted from the drive circuit, for a predetermined period of time, according to an operation from outside.
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8. The inertial sensor according to claim 4, wherein the regulator is an attenuator, or a phase-transition device.
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9. The inertial sensor according to claim 4, wherein the injector is a capacitor.
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10. The inertial sensor according to claim 4, wherein the injector is a resistor.
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11. The inertial sensor according to claim 1, wherein the self-diagnosis circuit includes:
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a drive-system determining device operable to monitor a level of the AC-bias signal voltage, so that an abnormality is constantly monitored in the drive circuit and the detecting element, and the diagnostic signal is outputted to the outside; a detection-system determining device operable to monitor a level of an output signal in the differential-type detector; and an OR circuit operable to output, to the outside, an output of the drive-system determining device and the detection-system determining device.
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Specification
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Current AssigneeMatsushita Electric Industrial Company Limited (Panasonic Holdings Corporation)
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Original AssigneeMatsushita Electric Industrial Company Limited (Panasonic Holdings Corporation)
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InventorsNozoe, Toshiyuki
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Primary Examiner(s)Williams; Hezron
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Assistant Examiner(s)Bellamy; Tamiko
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Application NumberUS10/954,587Publication NumberTime in Patent Office1,250 DaysField of Search735/143.2, 735/041.5, 735/141.6, 361/283.3US Class Current73/514.16CPC Class CodesG01C 19/5607 using vibrating tuning fork...G01C 19/5614 Signal processingG01P 15/125 by capacitive pick-upG01P 15/18 in two or more dimensionsG01P 2015/0828 the mass being of the paddl...G01P 2015/084 the mass being suspended at...G01P 21/00 Testing or calibrating of a...
