Bending beam accelerometer with differential capacitive pickoff
First Claim
1. A micro electro-mechanical systems accelerometer, the accelerometer comprising:
- a pendulous proof mass;
first and second securing pads;
first and second flexure beams, the first flexure beam being coupled with the first securing pad and the second flexure beam being coupled with the second securing pad, wherein the flexure beams have approximately the same thickness as the proof mass and have a longitudinal axis that is oriented approximately orthogonal to an axis of rotation of the proof mass; and
first and second first strain isolation beams, the first strain isolation beam being connected between the first flexure beam and the pendulous proof mass and the second strain isolation beam being connected between the second flexure beam and the pendulous proof mass.
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Accused Products
Abstract
A low cost, pendulous, capacitive-sensing Micro Electro-Mechanical Systems (MEMS) accelerometer is provided. The accelerometer includes a pendulous proof mass, one or more securing pads, and one or more flexures coupled with the pendulous proof mass and the one or more securing pads. The flexures flex linearly with respect to motion of the pendulous proof mass. First and second capacitor plates are positioned relative to the pendulous proof mass for detecting motion of the proof mass according to a sensed difference in capacitance. One or more strain isolation beams are connected between the one or more flexures and the pendulous proof mass or the securing pads. The strain isolation beams protect the flexures from mechanical strain.
27 Citations
6 Claims
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1. A micro electro-mechanical systems accelerometer, the accelerometer comprising:
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a pendulous proof mass;
first and second securing pads;
first and second flexure beams, the first flexure beam being coupled with the first securing pad and the second flexure beam being coupled with the second securing pad, wherein the flexure beams have approximately the same thickness as the proof mass and have a longitudinal axis that is oriented approximately orthogonal to an axis of rotation of the proof mass; and
first and second first strain isolation beams, the first strain isolation beam being connected between the first flexure beam and the pendulous proof mass and the second strain isolation beam being connected between the second flexure beam and the pendulous proof mass. - View Dependent Claims (2, 3, 4, 5)
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6. A micro electro-mechanical systems accelerometer, the accelerometer comprising:
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a pendulous proof mass;
first and second securing pads;
first and second flexure beams, wherein the flexure beams have approximately the same thickness as the proof mass and have a longitudinal axis that is oriented approximately orthogonal to an axis of rotation of the proof mass;
first, second, third, and fourth strain isolation beams, the first strain isolation beam being connected between the first flexure beam and the pendulous proof mass, the second strain isolation beam being connected between the second flexure beam and the pendulous proof mass, the third strain isolation beam being connected between the first flexure beam and the first securing pad, and the fourth strain isolation beam being connected between the second flexure beam and the second securing pad; and
first and second slots located between the first and second securing pads and the proof mass, respectively, wherein the strain isolation beams protect the flexures from mechanical shock, and the slots limits travel of the pendulous proof mass to less than failure strain of the accelerometer.
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Specification