Matched pairs of force transducers
First Claim
1. In an accelerometer of the type comprising first and second vibrating beam force transducers that produce respective first and second output signals having respective first and second frequencies, and that are connected in a push-pull arrangement in which for a given acceleration along a sensing axis, one frequency increases and the other frequency decreases, the first transducer comprising a pair of first beams and the second transducer comprising a pair of second beams, the improvement wherein the beam dimensions are selected such that the Euler buckling constants of the first and second transducers are substantially equal to one another, and such that in the absence of acceleration along the sensing axis, the first and second frequencies are different from one another.
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Accused Products
Abstract
A matched pair of vibrating beam force transducers for use in an instrument such as an accelerometer, to provide enhanced linearity and common mode tracking, while decreasing the possibility of lock in or cross-talk between the transducers. In a preferred embodiment, first and second transducers are provided, the transducers producing respective first and second output signals having respective first and second frequencies. The transducers are connected in an arrangement in which for a given acceleration, one frequency increases and the other frequency decreases. The first transducer comprises a pair of first beams, and the second transducer comprises a pair of second beams. The beam dimensions are selected such that the Euler buckling constants of the first and second transducers are substantially equal to one another, and such that the first and second frequencies are different from one another when the acceleration is zero and preferably are different from one another throughout the operating range of the accelerometer. In preferred arrangements, the transducer beams have a constant thickness, and the transducers have common axial stiffnesses.
33 Citations
16 Claims
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1. In an accelerometer of the type comprising first and second vibrating beam force transducers that produce respective first and second output signals having respective first and second frequencies, and that are connected in a push-pull arrangement in which for a given acceleration along a sensing axis, one frequency increases and the other frequency decreases, the first transducer comprising a pair of first beams and the second transducer comprising a pair of second beams, the improvement wherein the beam dimensions are selected such that the Euler buckling constants of the first and second transducers are substantially equal to one another, and such that in the absence of acceleration along the sensing axis, the first and second frequencies are different from one another.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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4. The improvement of claim 3, wherein t2 equals t1.
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5. The improvement of any one of claims 1-4, wherein each transducer comprises end portions between which the beams of the transducer extend, and wherein the end portions of the transducers are dimensioned such that the axial stiffnesses of the transducers are substantially equal to one another.
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6. The improvement of claim 5, wherein for each transducer, each end portion comprises an outrigger connected to both beams and a mounting pad connected to the outrigger, and wherein the dimensions of the outriggers are selected such that the axial stiffnesses of the transducers are substantially equal to one another.
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7. The improvement of claim 6, wherein the lengths of the outriggers are selected such that the axial stiffnesses of the transducers are substantially equal to one another.
- 8. The improvement of claim 2, wherein each first beam has a length m1, a width w1, and a thickness t1, each second beam has a length m2, a width w2, and a thickness t2, and wherein
- space="preserve" listing-type="equation">m.sub.2 =m.sub.1 (1+ε
).sup.-2/3
space="preserve" listing-type="equation">w.sub.2 =w.sub.1 (1+ε
).sup.-1/3
space="preserve" listing-type="equation">and
space="preserve" listing-type="equation">t.sub.2 =t.sub.1 (1+ε
).sup.-1/3ε
being a non-zero parameter, whereby the axial stiffnesses of the first and second transducers are equal to one another, and whereby the parameter ε
may be selected such that the first and second frequencies are not equal to one another within the operating range. - space="preserve" listing-type="equation">m.sub.2 =m.sub.1 (1+ε
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9. Matched first and second vibrating beam force transducers that produce respective first and second output signals having respective first and second frequencies, the transducers being for use in an instrument for measuring an input parameter, the instrument being of the type in which the transducers are connected in an arrangement in which for a given input parameter change, one frequency increases and the other frequency decreases, the first transducer comprising a pair of first beams and the second transducer comprising a pair of second beams, the beam dimensions being selected such that the Euler buckling constants of the first and second transducers are substantially equal to one another, and such that the first and second frequencies are different from one another when the input parameter has a null value.
- View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
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12. The matched transducers of claim 11, wherein t2 equals t1.
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13. The matched transducers of claims 9-12, wherein each transducer comprises end portions between which the beams of the transducer extend, and wherein the end portions of the transducers are dimensioned such that the axial stiffnesses of the transducers are substantially equal to one another.
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14. The matched transducers of claim 13, wherein for each transducer, each end portion comprises an outrigger connected to both beams and a mounting pad connected to the outrigger, and wherein the dimensions of the outriggers are selected such that the axial stiffnesses of the transducers are substantially equal to one another.
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15. The matched transducers of claim 14, wherein the lengths of the outriggers are selected such that the axial stiffnesses of the transducers are substantially equal to one another.
- 16. The matched transducers of claim 10, wherein each first beam has a length m1, a width w1, and a thickness t1, each second beam has a length m2, a width w2, and a thickness t2, and wherein
- space="preserve" listing-type="equation">m.sub.2 =m.sub.1 (1+ε
).sup.-2/3
space="preserve" listing-type="equation">w.sub.2 =w.sub.1 (1+ε
).sup.-1/3
space="preserve" listing-type="equation">and
space="preserve" listing-type="equation">t.sub.2 =t.sub.1 (1+ε
).sup.-1/3ε
being a non-zero parameter, whereby the axial stiffnesses of the first and second transducers are equal to one another, and whereby the parameter ε
may be selected such that the first and second frequencies are not equal to one another within the operating range. - space="preserve" listing-type="equation">m.sub.2 =m.sub.1 (1+ε
Specification