MICROMACHINED MONOLITHIC 6-AXIS INERTIAL SENSOR
First Claim
1. A 6-degrees-of-freedom (6-DOF) inertial measurement system, comprising:
- a device layer including a single proof-mass 6-axis inertial sensor formed in an x-y plane, the single proof-mass 6-axis inertial sensor including;
a main proof-mass section suspended about a single, central anchor, the main proof-mass section including a radial portion extending outward towards the edge of the 6-axis inertial sensor;
a central suspension system configured to suspend the 6-axis inertial sensor from the single, central anchor; and
a drive electrode including a moving portion and a stationary portion, the moving portion coupled to the radial portion, wherein the drive electrode and the central suspension system are configured to oscillate the 6-axis inertial sensor about a z-axis normal to the x-y plane at a drive frequency;
a cap wafer bonded to a first surface of the device layer; and
a via wafer bonded to a second surface of the device layer, wherein the cap wafer and the via wafer are configured to encapsulate the single proof-mass 6-axis inertial sensor.
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Abstract
The device layer of a 6-degrees-of-freedom (6-DOF) inertial measurement system can include a single proof-mass 6-axis inertial sensor formed in an x-y plane, the inertial sensor including a main proof-mass section suspended about a single, central anchor, the main proof-mass section including a radial portion extending outward towards the edge of the inertial sensor, a central suspension system configured to suspend the 6-axis inertial sensor from the single, central anchor, and a drive electrode including a moving portion and a stationary portion, the moving portion coupled to the radial portion, wherein the drive electrode and the central suspension system are configured to oscillate the 6-axis inertial sensor about a z-axis normal to the x-y plane.
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Citations
20 Claims
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1. A 6-degrees-of-freedom (6-DOF) inertial measurement system, comprising:
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a device layer including a single proof-mass 6-axis inertial sensor formed in an x-y plane, the single proof-mass 6-axis inertial sensor including; a main proof-mass section suspended about a single, central anchor, the main proof-mass section including a radial portion extending outward towards the edge of the 6-axis inertial sensor; a central suspension system configured to suspend the 6-axis inertial sensor from the single, central anchor; and a drive electrode including a moving portion and a stationary portion, the moving portion coupled to the radial portion, wherein the drive electrode and the central suspension system are configured to oscillate the 6-axis inertial sensor about a z-axis normal to the x-y plane at a drive frequency; a cap wafer bonded to a first surface of the device layer; and a via wafer bonded to a second surface of the device layer, wherein the cap wafer and the via wafer are configured to encapsulate the single proof-mass 6-axis inertial sensor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. A single proof-mass, micromachined, monolithic, 6-axis inertial sensor apparatus, comprising:
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a main proof-mass section suspended about a single, central anchor, the main proof-mass section including radial portions extending outward towards the edge of the 6-axis inertial sensor; a pair of x-axis proof-mass sections coupled to the main proof-mass section using multi-function flexure bearings and coupled to each other using an anti-phase flexure bearing; a pair of y-axis proof-mass sections coupled to multiple radial portions of the main proof-mass section using elongated flexure bearings; a central suspension system configured to suspend the 6-axis inertial sensor from the single, central anchor; and a drive electrode including a moving portion and a stationary portion, the moving portion coupled to the radial portion, wherein the drive electrode and the central suspension system are configured to oscillate the 6-axis inertial sensor about a z-axis normal to the x-y plane at a drive frequency. - View Dependent Claims (17, 18, 19)
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20. A method, comprising:
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suspending a single proof-mass of a 6-axis inertial sensor about a single, central anchor coupled to a stationary layer using central suspension, the main proof-mass section including a radial portion extending outward towards the edge of the 6-axis inertial sensor; suspending first and second x-axis proof-mass sections from the main proof-mass section using multi-function flexure bearings; anchoring a stationary drive electrode to the stationary layer; coupling a moveable electrode to the stationary electrode; oscillating the single proof-mass at a drive frequency using the stationary drive electrode, the moveable electrode, and the central suspension.
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Specification