Transfer having a coupling coefficient higher than its active material
First Claim
1. An actuator comprising:
- a) a support beam;
b) a first means for placing said support beam in compression without causing flexure of said support beam;
c) a first layer of material adhered to a first surface of said support beam; and
d) a second means for causing movement of said first layer of material to cause a flexure of said layer of material and said support beam.
3 Assignments
0 Petitions
Accused Products
Abstract
A coupling coefficient is a measure of the effectiveness with which a shape-changing material (or a device employing such a material) converts the energy in an imposed signal to useful mechanical energy. Device coupling coefficients are properties of the device and, although related to the material coupling coefficients, are generally different from them. This invention describes a class of devices wherein the apparent coupling coefficient can, in principle, approach 1.0, corresponding to perfect electromechanical energy conversion. The key feature of this class of devices is the use of destabilizing mechanical pre-loads to counter inherent stiffness. The approach is illustrated for piezoelectric and thermoelectrically actuated devices. The invention provides a way to simultaneously increase both displacement and force, distinguishing it from alternatives such as motion amplification, and allows transducer designers to achieve substantial performance gains for actuator and sensor devices.
40 Citations
24 Claims
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1. An actuator comprising:
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a) a support beam;
b) a first means for placing said support beam in compression without causing flexure of said support beam;
c) a first layer of material adhered to a first surface of said support beam; and
d) a second means for causing movement of said first layer of material to cause a flexure of said layer of material and said support beam. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A transducer comprising:
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a) a support beam;
b) a first means for placing said support beam in compression without causing flexure of said support beam;
c) a first layer of material adhered to a first surface of said support beam; and
d) a second means for responding to a flexure of said layer of material and said support beam for outputting a signal indicative thereof. - View Dependent Claims (11, 12, 13, 14)
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15. An actuator comprising:
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a) a beam comprising a first layer of material and a second layer of material bonded to said first layer;
b) a first means for placing said support beam in compression without causing flexure of said support beam; and
c) a second means for causing movement of said first layer and second layer to cause a flexure of said beam. - View Dependent Claims (16, 17, 18, 19, 20)
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21. A transducer comprising:
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a) a beam comprising a first layer of material and a second layer of material adhered to said said first layer of material;
b) a first means for placing said support beam in compression without causing flexure of said support beam; and
c) a second means for responding to a flexure of said first layer of material and said second layer of material for outputting a signal indicative thereof. - View Dependent Claims (22, 23, 24)
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Specification
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- Resources
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Current AssigneePenn State Research Foundation
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Original AssigneePenn State Research Foundation
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InventorsDavis, Christopher L., Lesieutre, George A.
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Primary Examiner(s)Dougherty, Thomas M.
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Application NumberUS09/380,122Time in Patent Office636 DaysField of Search310/328, 310/330, 310/331, 310/338US Class Current310/331CPC Class CodesH10N 30/2041 Beam typeH10N 30/2047 Membrane type
