Bulk acoustic wave gyroscope with spoked structure
First Claim
1. A gyroscope apparatus comprising:
- a substantially disk-shaped bulk acoustic resonator element having a resonance state of operation and comprising;
(i) a circular solid center portion having a center point of the disk-shaped resonator element located therein, the circular solid center portion undergoing substantially bulk acoustic vibration during the resonance state,(ii) an outer solid mass region extending inward from a circumference of the resonator element towards the solid center portion, the outer solid mass region undergoing substantially bulk acoustic vibration during the resonance state, and(iii) a first plurality of spokes connecting the solid center portion with the outer solid mass region, each of first the plurality of spokes having a first end coupled to the solid center portion and a second end coupled to the outer solid mass region, any of the first plurality of spokes undergoing substantially flexural vibration during the resonance state,wherein the outer solid mass region has larger volume compared to each one of the circular solid center portion and the plurality of the spokes.
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Accused Products
Abstract
A Coriolis-based bulk acoustic wave gyroscope includes a center-supported resonating element with capacitively-coupled drive, sense, and control electrodes. The resonating element has a first substantially solid or perforated region which is connected to the center-support by a second region characterized by a plurality of spokes or beams. When operating in a resonance state, the first region undergoes a bulk acoustic mode of vibration while the second region undergoes a flexural mode of vibration. Energy losses associated with the flexural mode of vibration reduce the overall quality factor (Q) at high resonance frequencies creating a large bandwidth and a fast response time without needing vacuum.
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Citations
29 Claims
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1. A gyroscope apparatus comprising:
a substantially disk-shaped bulk acoustic resonator element having a resonance state of operation and comprising; (i) a circular solid center portion having a center point of the disk-shaped resonator element located therein, the circular solid center portion undergoing substantially bulk acoustic vibration during the resonance state, (ii) an outer solid mass region extending inward from a circumference of the resonator element towards the solid center portion, the outer solid mass region undergoing substantially bulk acoustic vibration during the resonance state, and (iii) a first plurality of spokes connecting the solid center portion with the outer solid mass region, each of first the plurality of spokes having a first end coupled to the solid center portion and a second end coupled to the outer solid mass region, any of the first plurality of spokes undergoing substantially flexural vibration during the resonance state, wherein the outer solid mass region has larger volume compared to each one of the circular solid center portion and the plurality of the spokes. - View Dependent Claims (2, 3, 4, 5, 22, 23, 24, 26, 27)
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6. A gyroscope apparatus comprising:
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a substantially disk-shaped bulk acoustic resonator element having a resonance state of operation, the resonator element defining (i) a solid outer mass region extending inward from a circumferential edge of the resonator element towards a circular solid center portion having a center point of the resonator element located therein, but separated from the solid center portion, the solid outer mass region and the circular solid center portion undergoing substantially bulk acoustic vibration during the resonance state, (ii) a substantially open region defining a plurality of spokes connecting the solid outer mass region to the circular solid center portion of the resonator element, any of the plurality of spokes undergoing substantially flexural vibration during the resonance state, and (iii) at least one ring disposed intermediate the circular solid center portion and the solid outer mass region and intersecting the plurality of spokes, each of the plurality of spokes having a first end coupled to the solid outer mass region and a second end coupled to the circular solid center portion; a substrate supporting the resonator element proximate the circular solid center portion thereof; and a plurality of electrodes surrounding and separated from the resonator element by capacitive gaps, wherein the solid outer mass region has larger volume compared to each one of the circular solid center portion and the plurality of the spokes. - View Dependent Claims (7, 8, 9, 10, 11, 12, 13, 14, 15, 25, 28, 29)
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- 16. An article of manufacture comprising a disk-shaped resonator element defining a circumferential outer solid mass portion separated from a circular solid center portion of the disk-shaped element by a plurality of straight spokes extending radially outward from the circular solid center portion and connecting the circular solid center portion to the outer solid mass portion, and further defining at least one ring disposed intermediate the circular solid center portion and the outer solid mass region and intersecting the plurality of spokes, the disk-shaped element having a resonance state of operation wherein any of the plurality of spokes undergoes substantially flexural vibration during the resonance state, and the outer solid mass portion and the circular solid center portion undergo substantially bulk acoustic vibration during the resonance state, wherein the outer solid mass region has larger volume compared to each one of the circular solid center portion and the plurality of the spokes.
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18. A method of manufacturing a bulk acoustic wave resonator element comprising:
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A) forming a resonator element having a solid resonant mass with a perimeter edge and a circular solid center portion; B) etching a plurality of apertures in the resonator element to collectively define a plurality of spokes extending from the circular solid center portion at least partially toward the perimeter edge but separated therefrom by the solid resonant mass; and C) etching a plurality of apertures in the resonator element to collectively define at least one ring disposed intermediate the circular solid center portion and the solid resonant mass, wherein the solid resonant mass has a larger volume compared to a volume of each one of the circular solid center portion and the plurality of the spokes, and wherein the resonator element as manufactured has a resonance state of operation wherein any of the plurality of spokes undergo flexural vibration during the resonance state, and the solid resonant mass and the circular solid center portion undergoes bulk acoustic vibration during the resonance state. - View Dependent Claims (19, 20, 21)
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Specification