Accelerometer utilizing an annular mass
First Claim
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1. An accelerometer utilizing an annular mass, comprising:
- a silicon substrate;
at least one supporting pedestal mounted on the silicon substrate;
a mass configured in the shape of an annulus positioned so as to surround the pedestal;
a plurality of electrode pairs mounted on the silicon substrate such that one member of each electrode pair is above the annular mass and another member of the electrode pair is below the annular mass, the electrode pairs being located around the periphery of the annular mass such that the annular mass may be positioned by electrostatic forces from the electrode pairs;
a plurality of electrostatic control means, each electrically coupled to the annular mass and a predetermined electrode pair, for applying an electrostatic force to restore the mass to a neutral position by applying an electrostatic restoring voltage to the electrode pair; and
at least one supporting spring which mechanically centers and electrically couples the supporting pedestal to the annular mass but which does not significantly modify the effect of the electrostatic forces.
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Abstract
An accelerometer in which the seismic mass is formed in the shape of an annulus. The annular shape allows twisting motions as well as displacement of the seismic mass to be sensed and restoring electrostatic forces applied. This allows the supporting spring to be made extremely weak avoiding the mechanical limitations of springs.
67 Citations
7 Claims
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1. An accelerometer utilizing an annular mass, comprising:
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a silicon substrate; at least one supporting pedestal mounted on the silicon substrate; a mass configured in the shape of an annulus positioned so as to surround the pedestal; a plurality of electrode pairs mounted on the silicon substrate such that one member of each electrode pair is above the annular mass and another member of the electrode pair is below the annular mass, the electrode pairs being located around the periphery of the annular mass such that the annular mass may be positioned by electrostatic forces from the electrode pairs; a plurality of electrostatic control means, each electrically coupled to the annular mass and a predetermined electrode pair, for applying an electrostatic force to restore the mass to a neutral position by applying an electrostatic restoring voltage to the electrode pair; and at least one supporting spring which mechanically centers and electrically couples the supporting pedestal to the annular mass but which does not significantly modify the effect of the electrostatic forces. - View Dependent Claims (2, 3, 4)
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5. A solid-state accelerometer, comprising:
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a substrate; a support positioned on the substrate; a mass having at least one supporting arm attached to the support, the mass having a rectangular annular configuration surrounding the support; capacitive plates positioned on the substrate along each side of the rectangle for sensing position of the mass and for applying a restoring electrostatic force to the mass; and an electronic circuit coupled to the capacitive plates for sensing the position of the mass and for applying a restoring electrostatic force.
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6. A method for positioning a seismic mass within a accelerometer, comprising:
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providing a silicon substrate having a top surface; mounting a pedestal on the silicon substrate; providing a seismic mass having the shape of a rectangular annulus; positioning the seismic mass by means of a spring so the seismic mass surrounds the pedestal, the spring allowing the seismic mass to move freely in a direction perpendicular to the silicon substrate; mounting a plurality of electrode pairs on the silicon substrate such that one member of each electrode pair is above the mass and another member of the electrode pair is below the mass, the electrode pairs being positioned on each side of the seismic mass such that the annular mass may be positioned by electrostatic forces from the electrode pairs, and further that motion perpendicular to the silicon substrate causes a change in capacitance between the electrode pairs and the seismic mass; sensing the change of capacitance between each electrode pair and the seismic mass due to motion of the seismic mass; generating an electrical restoring voltage which is proportional to motion of the seismic mass along a predetermined plane; and applying the electrical restoring voltage to the electrode pairs which position the seismic mass along a predetermined plane. - View Dependent Claims (7)
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Specification