FREQUENCY SHIFTING OF ROTATIONAL HARMONICS IN MEMS DEVICES
First Claim
Patent Images
1. A MEMS device, comprising:
- a substrate;
at least one proof mass adjacent to the substrate, each proof mass having a number of ends, a number of sides, a thickness, and a centerline extending through a center portion of the proof mass perpendicular to a motor drive axis of the proof mass, and wherein each proof mass includes a plurality of holes or openings formed at least in part through said thickness, the holes or openings being non-uniformly dispersed within the proof mass, such that said at least one proof mass further comprises at least one interior area, extending from a first side to a second side of said at least one proof mass, said at least one interior area substantially free of the holes or openings.
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Abstract
Structures and methods for frequency shifting rotational harmonics in MEMS devices are disclosed. An illustrative MEMS device can include a substrate, a sense electrode coupled to the substrate, and a proof mass adjacent to the sense electrode. A number of non-uniformly dispersed holes or openings on the proof mass can be configured to alter the distribution of mass within the proof mass. During operation, the presence of the holes or openings alters the frequency at which the proof mass rotates about a centerline in a rotational mode, reducing the introduction of harmonics into the drive and sense systems.
61 Citations
20 Claims
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1. A MEMS device, comprising:
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a substrate;
at least one proof mass adjacent to the substrate, each proof mass having a number of ends, a number of sides, a thickness, and a centerline extending through a center portion of the proof mass perpendicular to a motor drive axis of the proof mass, and wherein each proof mass includes a plurality of holes or openings formed at least in part through said thickness, the holes or openings being non-uniformly dispersed within the proof mass, such that said at least one proof mass further comprises at least one interior area, extending from a first side to a second side of said at least one proof mass, said at least one interior area substantially free of the holes or openings. - View Dependent Claims (2, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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3. (canceled)
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14. A MEMS device, comprising:
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a substrate;
at least one sense electrode coupled to the substrate;
at least one proof mass adjacent to the at least one sense electrode, each proof mass having a number of ends, a number of sides, a thickness, and a centerline extending through a center portion of the proof mass perpendicular to a motor drive axis of the proof mass;
a plurality of holes or openings formed at least in part through the thickness of said proof mass, at least a portion of the holes or openings being dispersed away from the centerline and towards each end of the proof mass, and wherein the distribution of the holes or openings is configured to increase the frequency of rotation of the proof mass about the centerline. - View Dependent Claims (15, 16, 17, 18, 19)
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20. A MEMS device, comprising:
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a substrate;
at least one sense electrode coupled to the substrate;
at least one proof mass adjacent to the at least one sense electrode, each proof mass having a number of ends, a number of sides, a thickness, and a centerline extending through a center portion of the proof mass perpendicular to a motor drive axis of the proof mass;
a first pattern or array of holes or openings formed at least in part through the proof mass thickness at or near a first end portion of the proof mass, the first pattern or array of holes or openings disposed adjacent a first interior portion of the proof mass containing no holes or openings; and
a second pattern or array of holes or openings formed at least in part through the proof mass thickness at or near a second end portion of the proof mass, the second pattern or array of holes or openings disposed adjacent a second interior portion of the proof mass containing no holes or openings.
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Specification