Vibration control apparatus
First Claim
1. Vibration control apparatus comprisinga vibration member having a surface with a resonance point,a first piezoelectric element adhered to said surface of said vibration member,an excitation circuit including a drive apparatus for exciting said piezoelectric element with a first A.C. drive voltage, said drive apparatus being connected to said piezoelectric element via a first excitation circuit impedance element, anda feedback circuit comprising differential means for obtaining the difference between a voltage at the output of said first excitation circuit impedance element and a first AC reference voltage and for feeding back the difference to said drive apparatus to control said drive apparatus, anda reference voltage circuit for obtaining said first AC reference voltage comprising a first reference voltage circuit impedance element connected to said drive apparatus and a first capacitor connected to said first reference voltage circuit impedance element, said first AC reference voltage being obtained at the output of said first reference voltage circuit impedance element.
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Accused Products
Abstract
A vibration control apparatus comprises a vibration member having a surface with a resonance point. A piezoelectric element is adhered to the surface of the vibration member. A drive apparatus is connected to the piezoelectric element via an impedance element for exciting the piezoelectric element with an A.C. signal. A feedback circuit is connected between the piezoelectric element and the drive apparatus. The feedback circuit picks out the components of a voltage on the piezoelectric element caused by a strain of the piezoelectric element and feeds this voltage back to control the drive apparatus. The inventive vibration control apparatus may be incorporated in a gyro to simplify the construction of the gyro.
47 Citations
16 Claims
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1. Vibration control apparatus comprising
a vibration member having a surface with a resonance point, a first piezoelectric element adhered to said surface of said vibration member, an excitation circuit including a drive apparatus for exciting said piezoelectric element with a first A.C. drive voltage, said drive apparatus being connected to said piezoelectric element via a first excitation circuit impedance element, and a feedback circuit comprising differential means for obtaining the difference between a voltage at the output of said first excitation circuit impedance element and a first AC reference voltage and for feeding back the difference to said drive apparatus to control said drive apparatus, and a reference voltage circuit for obtaining said first AC reference voltage comprising a first reference voltage circuit impedance element connected to said drive apparatus and a first capacitor connected to said first reference voltage circuit impedance element, said first AC reference voltage being obtained at the output of said first reference voltage circuit impedance element.
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6. A vibration control apparatus comprising
a vibration member having a surface with a resonance point, a piezoelectric element with a polygon-shaped cross section adhered to said surface of said vibration member, said piezoelectric element having an electrode which is split into first and second electrodes, an excitation circuit including a drive apparatus for exciting said piezoelectric element with an AC drive voltage, said drive apparatus being connected to said first electrode of said piezoelectric element via a first excitation circuit impedance element and to said second electrode of said piezoelectric element via a second excitation circuit impedance element, a feedback circuit comprising first differential means for differentiating between a first voltage present at an output of said first excitation circuit impedance element and first AC reference voltage and second differential means for differentiating between an output of said second excitation circuit impedance element and a second AC reference voltage, and means for summing the outputs of said first and second differential means and feeding the result back to said drive apparatus to control said drive apparatus, said apparatus being incorporated in a gyro and including means for generating an output indicative of an angular velocity of the vibration member.
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8. Vibration control apparatus comprising
a vibration member having a surface with a resonance point, said vibration member having a polygon-shaped cross-section with first and second non-parallel surfaces, first and second piezoelectric elements adhered to said first and second non-parallel surfaces, an excitation circuit including a drive apparatus for exciting said piezoelectric elements with first and second AC drive voltages, said drive apparatus being connected to said first piezoelectric element via a first excitation circuit impedance element and to said second piezoelectric element via a second excitation circuit impedance element, a feedback circuit responsive to the outputs of said first and second excitation circuit impedance elements and for feeding back a voltage which is differentiated with respect to an AC reference voltage to said drive apparatus to control said drive apparatus, said vibration control apparatus being incorporated in a gyro and including means for generating an output indicative of an angular velocity of the vibration member.
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11. Vibration control apparatus comprising
a vibration member having a surface with a resonance point, said vibration member having a polygon-shaped cross-section with first and second non-parallel surfaces, first and second piezoelectric elements adhered to said first and second non-parallel surfaces, an excitation circuit including a drive apparatus for exciting said piezoelectric elements with first and second AC drive voltages, said drive apparatus being connected to said first piezoelectric element via a first excitation circuit impedance element and to said second piezoelectric element via a second excitation circuit impedance element, a feedback circuit responsive to the outputs of said first and second excitation circuit impedance elements and for feeding back a voltage to said drive apparatus to control said drive apparatus, said vibration control apparatus being incorporated in a gyro and including means for generating an output indicative of an angular velocity of the vibration member, wherein said feedback circuit comprises first differential means for differentiating between a first voltage obtained at an output of said first excitation circuit impedance element and a second voltage obtained at an output of said second excitation circuit impedance element, a second differential means for differentiating between the output of said first differential means and an A.C. reference voltage and for feeding the result back to said drive apparatus, said vibration control apparatus further including a summer for summing said first and second voltages to obtain said output indicative of angular velocity.
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13. Vibration control apparatus comprising
a vibration member having a surface with a resonance point, said vibration member having a polygon-shaped cross-section with first and second non-parallel surfaces, first and second piezoelectric elements adhered to said first and second non-parallel surfaces, an excitation circuit including a drive apparatus for exciting said piezoelectric elements with first and second AC drive voltages, said drive apparatus being connected to said first piezoelectric element via a first excitation circuit impedance element and to said second piezoelectric element via a second excitation circuit impedance element, a feedback circuit responsive to the outputs of said first and second excitation circuit impedance elements and for feeding back a voltage to said drive apparatus to control said drive apparatus, said vibration control apparatus being incorporated in a gyro and including means for generating an output indicative of an angular velocity of the vibration member; wherein said feedback circuit comprises first differential means for differentiating between a first voltage obtained at an output of said first excitation circuit impedance element and a first A.C. reference voltage, second differential means for differentiating between a second voltage obtained at an output of said second excitation circuit impedance element and a second A.C. reference voltage, and means for adding the outputs of said first and second differential means and feeding back the result to said drive apparatus, said vibration control apparatus also including third differential means for differentiating between said first and second voltages to obtain said output indicative of angular velocity. - View Dependent Claims (14)
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15. Vibration control apparatus comprising
a vibration member having a surface with a resonance point, said vibration member having a polygon-shaped cross-section with first and second non-parallel surfaces, first and second piezoelectric elements adhered to said first and second non-parallel surfaces, an excitation circuit including a drive apparatus for exciting said piezoelectric elements with first and second AC drive voltages, said drive apparatus being connected to said first piezoelectric element via a first excitation circuit impedance element and to said second piezoelectric element via a second excitation circuit impedance element, a feedback circuit responsive to the outputs of said first and second excitation circuit impedance elements and for feeding back a voltage to said drive apparatus to control said drive apparatus, said vibration control apparatus being incorporated in a gyro and including means for generating an output indicative of an angular velocity of the vibration member, wherein said feedback circuit comprises first differential means for differentiating between a first voltage obtained at an output of said first excitation circuit impedance element and a first A.C. reference voltage and a second differential means for differentiating between a second voltage obtained at an output of said second excitation circuit impedance element and a second A.C. reference voltage, and summing means for summing the outputs of said first and second differential means and feeding the result back to the drive apparatus, said vibration control apparatus further comprising third differential means for differentiating between the outputs of said first and second differential means to obtain said output indicative of angular velocity.
Specification