Tuning fork type gyroscope
First Claim
1. A tuning fork type gyroscope comprising:
- a vibratory structure arranged to be spaced from a plane formed by a first axis and a second axis perpendicular thereto in a third axial direction perpendicular to the plane;
driving means for vibrating said vibratory structure in the second axial direction by an electrostatic force;
sensor electrode means arranged on said plane so as to sense displacement of said vibratory structure in the third axial direction while said vibratory structure moves with an angular velocity around the first axis;
upper torque electrode means for balancing the vibratory force of said vibratory structure arranged over said vibratory structure so as to control displacement of said vibratory structure in the third axial direction; and
lower torque electrode means for balancing the vibratory force of said vibratory structure arranged under said vibratory structure so as to control displacement of said vibratory structure in the third axial direction;
wherein said lower torque electrode means includes first, second, third and fourth lower torque electrodes symmetrically arranged at four positions under said vibratory structure,wherein said first and second lower torque electrodes and said third and fourth lower torque are opposite from each other, respectively.
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Accused Products
Abstract
A tuning fork type gyroscope includes a vibratory structure arranged to be spaced from a plane formed by a first axis and a second axis perpendicular thereto in a third axial direction perpendicular to the plane, driving means for vibrating the vibratory structure in the second axial direction by an electrostatic force, sensor electrode means arranged on said plane so as to sense displacement of the vibratory structure in the third axial direction while the vibratory structure moves with an angular velocity in the first axis, upper torque electrode means for balancing the force, arranged over the vibratory structure so as to control displacement of the vibratory structure in the third axial direction, and lower torque electrode means for balancing the force, arranged under the vibratory structure so as to control displacement of the vibratory structure in the third axial direction. Therefore, the distortion of the vibratory structure can be efficiently prevented, and an angular velocity can be accurately measured.
47 Citations
12 Claims
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1. A tuning fork type gyroscope comprising:
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a vibratory structure arranged to be spaced from a plane formed by a first axis and a second axis perpendicular thereto in a third axial direction perpendicular to the plane; driving means for vibrating said vibratory structure in the second axial direction by an electrostatic force; sensor electrode means arranged on said plane so as to sense displacement of said vibratory structure in the third axial direction while said vibratory structure moves with an angular velocity around the first axis; upper torque electrode means for balancing the vibratory force of said vibratory structure arranged over said vibratory structure so as to control displacement of said vibratory structure in the third axial direction; and lower torque electrode means for balancing the vibratory force of said vibratory structure arranged under said vibratory structure so as to control displacement of said vibratory structure in the third axial direction; wherein said lower torque electrode means includes first, second, third and fourth lower torque electrodes symmetrically arranged at four positions under said vibratory structure, wherein said first and second lower torque electrodes and said third and fourth lower torque are opposite from each other, respectively. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A tuning fork type gyroscope comprising:
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a vibratory structure arranged to be spaced from a plane formed by a first axis and a second axis perpendicular thereto in a third axial direction perpendicular to the plane; driving means for vibrating said vibratory structure in the second axial direction by an electrostatic force; sensor electrode means arranged on said plane so as to sense displacement of said vibratory structure in the third axial direction while said vibratory structure moves with an angular velocity around the first axis; torque electrode means for balancing the vibratory force of said vibratory structure so as to control displacement of said vibratory structure in the third axial direction, including first, second, third and fourth torque electrodes symmetrically arranged at four positions under said vibratory structure. - View Dependent Claims (12)
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Specification