Electrostatic drive for accelerometer
First Claim
1. A vibrating beam force transducer for an accelerometer comprising:
- at least a first vibrating beam having a longitudinal axis, first and second fixed end portions and a resonating portion therebetween, said resonating portion defining a lateral wall and having one or more fingers formed substantially coplanar with said beam and projecting from said lateral wall; and
an electrode positioned adjacent to and spaced from said beam for generating an electrostatic force to vibrate said resonating portion of said beam in a transverse direction, said electrode having one or more fingers extending toward said resonating portion of said beam;
wherein a second vibrating beam spaced from said first beam opposite said electrode, said second beam having a longitudinal axis substantially parallel to said first beam, first and second fixed end portions and a resonating portion therebetween; and
wherein the fixed end portions of the first and second beams are contiguous with each other to form a double ended tuning fork.
1 Assignment
0 Petitions
Accused Products
Abstract
A vibratory transducer (22) for an accelerometer (2) having a pair of parallel beams (50, 52) with first and second fixed end portions, and a pair of electrodes (62, 64) positioned adjacent to the beams for generating an electrostatic force to transversely vibrate the beams at a resonant frequency. The vibration frequency of the beam is generally related to axial (i.e., compression or tension) forces applied to either one of the fixed ends of the beam so that the magnitude of the force applied can be measured by changes in the vibration frequency. The electrodes and the beams each have a plurality of fingers (82, 80) extending laterally outward so that the beam fingers and the electrode fingers are intermeshed with each other. The intermeshed fingers reduce the transducer'"'"'s sensitivity to changes in applied voltage, thereby increasing the accuracy of the frequency signal. In addition, the intermeshed fingers enable the transducer to operate effectively at pressure levels substantially above vacuum to permit gas damping of the proof mass.
56 Citations
1 Claim
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1. A vibrating beam force transducer for an accelerometer comprising:
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at least a first vibrating beam having a longitudinal axis, first and second fixed end portions and a resonating portion therebetween, said resonating portion defining a lateral wall and having one or more fingers formed substantially coplanar with said beam and projecting from said lateral wall; and
an electrode positioned adjacent to and spaced from said beam for generating an electrostatic force to vibrate said resonating portion of said beam in a transverse direction, said electrode having one or more fingers extending toward said resonating portion of said beam;
wherein a second vibrating beam spaced from said first beam opposite said electrode, said second beam having a longitudinal axis substantially parallel to said first beam, first and second fixed end portions and a resonating portion therebetween; and
wherein the fixed end portions of the first and second beams are contiguous with each other to form a double ended tuning fork.
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Specification