Self-stabilizing, floating microelectromechanical device
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Abstract
The present invention relates to MicroElectroMechanical Systems (MEMS), devices and applications thereof in which a proof mass is caused to levitate by electrostatic repulsion. Configurations of electrodes are described that result in self-stabilized floating of the proof mass. The electrical properties of the electrodes causing floating, such as currents and/or voltages, typically change in response to environmental perturbations affecting the proof mass. Measuring such currents and/or voltages allow immediate and accurate measurements to be performed related to those perturbations affecting the location and/or the orientation of the proof mass. Additional sensing electrodes can be included to further enhance sensing capabilities. Drive electrodes can also be included that allow forces to be applied to the charged proof mass resulting in a floating, electrically controllable MEMS device. Several applications are described including accelerometers, inertial sensors, resonators and filters for communication devices, gyros, one and two axis mirrors and scanners, among other devices. Several fabrication methods are also described.
20 Citations
26 Claims
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1-20. -20. (canceled)
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21. A floating MEMS device comprising:
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a) an electrostatically charged proof mass; and
,b) at least two stabilizing electrode structures carrying charges that repel said charges on said proof mass, wherein i) said proof mass is located with respect to said stabilizing electrode structures so as to levitate due to like-charge repulsion between said proof mass and said stabilizing electrode structures; and
whereinii) said proof mass and said stabilizing electrode structures are located so as to produce electrostatic repulsion leading to stable levitation such that displacements of said proof mass from its equilibrium floating position result in electrostatic forces on said proof mass tending to return said proof mass to said equilibrium position; and
further comprising,c) a plurality of side electrodes disposed about the periphery of said proof mass, having first ends of said side electrodes integrally attached to said proof mass and having the opposite, second ends of said side electrodes projecting outward from said proof mass, and wherein said side electrodes carry at least a portion of said electrostatic charge of said proof mass, and wherein each of said second ends of said side electrodes project into one of said stabilizing electrode structures; and
further comprising,d) at least one drive electrode located so as to apply force to said proof mass under external control.
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22. A floating MEMS device comprising:
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a) an electrostatically charged proof mass; and
,b) at least two stabilizing electrode structures carrying charges that repel said charges on said proof mass, wherein i) said proof mass is located with respect to said stabilizing electrode structures so as to levitate due to like-charge repulsion between said proof mass and said stabilizing electrode structures; and
whereinii) said proof mass and said stabilizing electrode structures are located so as to produce electrostatic repulsion leading to stable levitation such that displacements of said proof mass from its equilibrium floating position result in electrostatic forces on said proof mass tending to return said proof mass to said equilibrium position; and
further comprising,c) a plurality of side electrodes disposed about the periphery of said proof mass, having first ends of said side electrodes integrally attached to said proof mass and having the opposite, second ends of said side electrodes projecting outward from said proof mass, and wherein said side electrodes carry at least a portion of said electrostatic charge of said proof mass, and wherein each of said second ends of said side electrodes project into one of said stabilizing electrode structures; and
wherein,d) two side electrodes provide an axis of rotation for said proof mass. - View Dependent Claims (23, 24, 25)
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26. A resonator comprising:
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a) an electrostatically charged proof mass; and
,b) at least two stabilizing electrode structures carrying charges that repel said charges on said proof mass, wherein i) said proof mass is located with respect to said stabilizing electrode structures so as to levitate due to like-charge repulsion between said proof mass and said stabilizing electrode structures; and
whereinii) said proof mass and said stabilizing electrode structures are located so as to produce electrostatic repulsion leading to stable levitation such that displacements of said proof mass from its equilibrium floating position result in electrostatic forces on said proof mass tending to return said proof mass to said equilibrium position; and
further comprising,c) a plurality of side electrodes disposed about the periphery of said proof mass, having first ends of said side electrodes integrally attached to said proof mass and having the opposite, second ends of said side electrodes projecting outward from said proof mass, and wherein said side electrodes carry at least a portion of said electrostatic charge of said proof mass, and wherein each of said second ends of said side electrodes project into one of said stabilizing electrode structures; and
further comprising,d) at least one sensor for detecting the position of said proof mass, wherein said at least one sensor comprises at least one sensing electrode in proximity to said proof mass; and
further comprising,e) at least one drive electrode capable of driving said proof mass into a resonance mode.
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Specification