Angular rate sensor with suppressed linear acceleration response
First Claim
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1. A dual-axis angular rate sensor for measuring rate of rotation about two mutually perpendicular input axes comprising:
- first and second generally planar masses disposed in a plane formed by the first and second axes, the masses being spaced apart along the first axis;
a supporting frame disposed in said plane, said frame being mounted for torsional movement about the second axis and a third axis, wherein the third axis is perpendicular to the first and second axes;
flexures suspending the masses from the frame and constraining the masses for linear movement along the first axis relative to the frame;
a pair of anti-phase couplers further constraining the masses for anti-phase linear movement along the first axis, wherein said couplers are suspended from the frame and connected to the masses and spaced apart along the second axis, and each coupler comprising;
a supporting beam which extends in a direction substantially parallel to the first axis and is mounted to the frame at its two ends;
first and second link springs which extend from the first and second masses respectively to the beam and join one another to form a common joint at substantially the midpoint of the supporting beam;
a pair of subassemblies disposed in the plane of the masses and spaced apart along the second axis, wherein each said subassembly comprises;
a sub frame disposed and constrained for movement along the second axis;
a flexure extending along the second axis and connecting the sub frame to adjacent joint of the link springs, wherein said flexure is substantially stiff along the second axis and flexible for bending along the first axis and for rotation about the second axis;
actuation means for driving the masses to oscillate along or about a preselected drive axis in drive-mode;
detection means responsive to the sense-mode movement of the frame and/or the masses in response to Coriolis forces produced by the rotation of the masses about the input axes for monitoring rate of rotation about the input axes, wherein the input axes are perpendicular to the velocities of the masses in drive-mode.
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Abstract
An angular rate sensor having two generally planar proof masses, a sense axis in the plane of the masses, and an input axis perpendicular to the sense axis. The masses are suspended from a driving frame, which is mounted for torsional movement about the input axis in drive-mode. And the masses are constrained for anti-phase movement along the sense axis in sense-mode in response to Coriolis forces produced by rotation of the masses about the input axis, with sensors responsive to the anti-phase movement of the masses along the sense axis for monitoring rate of rotation.
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4 Claims
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1. A dual-axis angular rate sensor for measuring rate of rotation about two mutually perpendicular input axes comprising:
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first and second generally planar masses disposed in a plane formed by the first and second axes, the masses being spaced apart along the first axis; a supporting frame disposed in said plane, said frame being mounted for torsional movement about the second axis and a third axis, wherein the third axis is perpendicular to the first and second axes; flexures suspending the masses from the frame and constraining the masses for linear movement along the first axis relative to the frame; a pair of anti-phase couplers further constraining the masses for anti-phase linear movement along the first axis, wherein said couplers are suspended from the frame and connected to the masses and spaced apart along the second axis, and each coupler comprising; a supporting beam which extends in a direction substantially parallel to the first axis and is mounted to the frame at its two ends; first and second link springs which extend from the first and second masses respectively to the beam and join one another to form a common joint at substantially the midpoint of the supporting beam; a pair of subassemblies disposed in the plane of the masses and spaced apart along the second axis, wherein each said subassembly comprises; a sub frame disposed and constrained for movement along the second axis; a flexure extending along the second axis and connecting the sub frame to adjacent joint of the link springs, wherein said flexure is substantially stiff along the second axis and flexible for bending along the first axis and for rotation about the second axis; actuation means for driving the masses to oscillate along or about a preselected drive axis in drive-mode; detection means responsive to the sense-mode movement of the frame and/or the masses in response to Coriolis forces produced by the rotation of the masses about the input axes for monitoring rate of rotation about the input axes, wherein the input axes are perpendicular to the velocities of the masses in drive-mode. - View Dependent Claims (2, 3, 4)
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Specification