Vibration damping system using active negative capacitance shunt circuit with piezoelectric reaction mass actuator
First Claim
1. A vibration-reducing device for damping broadband vibrations of a structure, comprising:
- an actuator connected to said structure and comprising piezoelectric material, said material having a broadband capacitive reactance;
a negative capacitance circuit connected in shunt relation to said material, wherein said circuit continuously simulates a negative capacitance of equivalent magnitude but opposite in phase to said capacitive reactance of said piezoelectric material said circuit comprising;
an amplifier having positive and negative feedback loops;
an input/output circuit connecting said amplifier in shunt across said piezoelectric material;
a tuning resistor coupled across said input/output circuit for tuning said negative capacitance circuit;
a resistive voltage divider having a first series connected resistor and a second series connected resistor for determining the negative feedback non-inverting gain of said amplifier said second series connected resistor coupled across said amplifier;
a load capacitor coupled across said amplifier forming a capacitive voltage divider with said capacitive reactance of said piezoelectric material;
wherein the total impedance of the combined negative capactiance circuit and said piezoelectric material is substantially larger than that of said piezoelectric material alone.
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Accused Products
Abstract
Boring bar vibration damping is improved by a novel use of the electromechanical properties of the piezoelectric actuator material. A negative capacitance shunt circuit is provided in which a voltage-controlled voltage-source continuously simulates a negative capacitance that is substantially equal in magnitude but opposite in phase to the capacitance of the piezoelectric material. The negative capacitance is shunted across the piezoelectric device, effectively compensating for the capacitance of the device across a broad frequency band. The voltages generated in the piezoelectric element in response to mechanical deformation induced by broadband vibrations of the structure during damping operations, may then be completely resistively dissipated, thereby enhancing the mechanical damping.
57 Citations
8 Claims
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1. A vibration-reducing device for damping broadband vibrations of a structure, comprising:
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an actuator connected to said structure and comprising piezoelectric material, said material having a broadband capacitive reactance; a negative capacitance circuit connected in shunt relation to said material, wherein said circuit continuously simulates a negative capacitance of equivalent magnitude but opposite in phase to said capacitive reactance of said piezoelectric material said circuit comprising; an amplifier having positive and negative feedback loops; an input/output circuit connecting said amplifier in shunt across said piezoelectric material; a tuning resistor coupled across said input/output circuit for tuning said negative capacitance circuit; a resistive voltage divider having a first series connected resistor and a second series connected resistor for determining the negative feedback non-inverting gain of said amplifier said second series connected resistor coupled across said amplifier; a load capacitor coupled across said amplifier forming a capacitive voltage divider with said capacitive reactance of said piezoelectric material; wherein the total impedance of the combined negative capactiance circuit and said piezoelectric material is substantially larger than that of said piezoelectric material alone. - View Dependent Claims (2, 3, 8)
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4. A vibration-reducing device for damping broadband vibrations in a structure, comprising:
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an actuator connected to said structure and comprising a piezoelectric stack having a broadband capacitive reactance Cp ; negative capacitance circuit means connected in shunt relation to said stack for continuously simulating a capacitive reactance of a magnitude substantially equivalent to Cp but opposite in phase, said means comprising; an operational amplifier having positive and negative feedback loops; an input/output circuit connecting said amplifier in shunt relation across said stack; a tuning resistor disposed across said input/output circuit for tuning said negative capacitance circuit means to a predetermined optimum mechanically-damped response for the particular said structure; a resistive voltage divider comprising first and second series-connected resistors, said second resistor being connected across said amplifier, said resistive divider determining the negative feedback non-inverting gain of said amplifier; and a load capacitor connected across said amplifier and forming a capacitive voltage divider with said stack capacitance, the ratio of the impedance of said load capacitor to that of said stack capacitance being equal to or slightly greater than the ratio of the resistive values of said first and said second resistors; whereby said two-named ratios are substantially the same for identical positive and negative feedback performance of said amplifier. - View Dependent Claims (5, 6, 7)
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Specification