Multi-axis micromachined accelerometer
First Claim
1. A multi-axis micromachined accelerometer, comprising:
- a proof mass suspended above a substrate for movement in response to acceleration along first and second axes, a first detection electrode connected to the proof mass and constrained for movement only along the first axis, and a second detection electrode connected to the proof mass and constrained for movement only along the second axis.
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Accused Products
Abstract
Multi-axis micromachined accelerometer which, in some disclosed embodiments, has a proof mass suspended above a substrate for movement in response to acceleration along first and second axes, a first detection electrode connected to the proof mass and constrained for movement only along the first axis, and a second detection electrode connected to the proof mass and constrained for movement only along the second axis. In another embodiment, the proof mass is also movable in response to acceleration along a third axis which is perpendicular to the substrate, and a third detection electrode is mounted on the substrate beneath the proof mass for detecting movement of the proof mass in response to acceleration along the third axis. In other embodiments, two proof masses are mounted above a substrate for torsional movement about an axis perpendicular to the substrate in response to acceleration along a first axis and for rotational movement about a second axis parallel to the substrate in response to acceleration along second axis perpendicular to the substrate, a first detector having input electrodes connected to the proof masses and constrained for movement only along the first axis for detecting acceleration along the first axis, and detection electrodes mounted on the substrate beneath the proof masses for detecting rotational movement of the proof masses and acceleration along the second axis.
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Citations
28 Claims
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1. A multi-axis micromachined accelerometer, comprising:
- a proof mass suspended above a substrate for movement in response to acceleration along first and second axes, a first detection electrode connected to the proof mass and constrained for movement only along the first axis, and a second detection electrode connected to the proof mass and constrained for movement only along the second axis.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A micromachined accelerometer for detecting acceleration along first and second mutually perpendicular input axes, comprising:
- a substrate, first and second detectors having input electrodes interleaved between fixed electrodes, flexible beams perpendicular to the first axis mounting the input electrodes of the first detector for movement only along the first axis, flexible beams perpendicular to the second axis mounting the input electrodes of the second detector for movement only along the second axis, a proof mass, coupling links which are rigid along the first axis and flexible along the second axis interconnecting the proof mass and the movable electrodes of the first detector, and coupling links which are rigid along the second axis and flexible along the first axis interconnecting the proof mass and the movable electrodes of the second detector.
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10. A multi-axis micromachined accelerometer, comprising:
- a proof mass suspended above a substrate for movement in response to acceleration along first axis parallel to the substrate and second axes perpendicular to the substrate, a first detection electrode connected to the proof mass and constrained for movement only along the first axis for detecting acceleration along the first axis, and a second detection electrode mounted on the substrate beneath the proof mass for detecting acceleration along the second axis.
- View Dependent Claims (11, 12, 13)
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14. A multi-axis micromachined accelerometer, comprising:
- a substrate, first and second detectors having input electrodes interleaved between fixed electrodes, flexible beams perpendicular to a first axis mounting the input electrodes of the first detector for movement only along the first axis, flexible beams perpendicular to a second axis mounting the input electrodes of the second detector for movement only along the second axis, a gimbal frame, coupling links which are rigid along the first axis and flexible along the second axis interconnecting the gimbal frame and the movable electrodes of the first detector, coupling links which are rigid along the second axis and flexible along the first axis interconnecting the gimbal frame and the movable electrodes of the second detector, a proof mass mounted on the gimbal frame for rotational movement about an axis parallel to the substrate in response to acceleration along an axis perpendicular to the substrate, and a detection electrode mounted on the substrate beneath the proof mass for detecting the rotational movement of the proof mass.
- View Dependent Claims (15)
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16. A micromachined accelerometer for detecting acceleration along first and second mutually perpendicular axes, comprising:
- a substrate, first and second generally planar proof masses mounted side-by-side above the substrate and connected together along adjacent edge portions thereof for torsional movement about axes perpendicular to the substrate in response to acceleration along the first axis and for rotational movement about axes parallel to the substrate in response to acceleration along the second axis, a first detector having input electrodes connected to the proof masses and constrained for movement only along the first axis, and detection electrodes mounted on the substrate beneath the proof masses for detecting the rotational movement of the proof masses.
- View Dependent Claims (17, 18)
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19. A micromachined accelerometer for detecting acceleration along first, and second axes, comprising:
- a substrate, a pair of gimbals, flexures mounting the gimbals on the substrate for torsional movement about axes perpendicular to the substrate in response to acceleration along the first axis, a pair of proof masses rotatively mounted on the gimbals for rotational movement about axes parallel to the substrate in response to acceleration along the second axis, a detector having movable input electrodes connected to the proof masses and constrained for movement only along the first axis, and detection electrodes mounted on the substrate beneath the proof masses for detecting the rotational movement of the proof masses.
- View Dependent Claims (20, 21)
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22. A multi-axis micromachined accelerometer, comprising:
- a proof mass suspended above a substrate for movement in response to acceleration along first and second axes, a first detection electrode constrained for movement only along the first axis, a second detection electrode constrained for movement only along the second axis, a first lever extending in a direction perpendicular to the first axis for rotational movement about a fulcrum in a direction generally parallel to the first axis, a second lever extending in a direction perpendicular to the second axis for rotational movement about a fulcrum in a direction generally parallel to second axis, a first coupling link which is rigid along the first axis and flexible along the second axis connecting the proof mass to the first lever at a point near the fulcrum, a second coupling link which is rigid along the first axis and flexible along the second axis connecting the first detection electrode to the first lever at a point removed from the fulcrum, a first coupling link which is rigid along the second axis and flexible along the first axis connecting the proof mass to the second lever at a point near the fulcrum, and a second coupling link which is rigid along the second axis and flexible along the first axis connecting the second detection electrode to the second lever at a point removed from the fulcrum.
- View Dependent Claims (23, 24)
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25. A micromachined accelerometer for detecting acceleration along a first axis parallel to a substrate and a second axis perpendicular to the substrate, comprising:
- a pair of frames mounted on the substrate for torsional movement about axes perpendicular to the substrate in response to acceleration along the first axis, a pair of generally planar proof masses mounted on the frames for torsional movement with the frames and for rotational movement about axes parallel to the substrate in response to acceleration along the second axis, sensing capacitors having input electrodes extending from the frames and interleaved with fixed electrodes mounted on the substrate for detecting torsional movement of the proof masses and frames, and detection electrodes mounted on the substrate beneath the proof masses for detecting the rotational movement of the proof masses.
- View Dependent Claims (26, 27, 28)
Specification