Monolithic silicon rate-gyro with integrated sensors
First Claim
1. A vibratory gyroscopic silicon transducer, comprising,a silicon micromachined inner post, having a top surface defining an x-y plane,a first silicon frame, surrounding the post,a first set of single crystal silicon hinges connected between the first silicon frame and the inner post, with the hinges defining a first axis,a second silicon frame, surrounding the post and the first frame, the second silicon frame having a natural resonant frequency,a second set of single crystal silicon hinges connected between the first and second silicon frames, defining a second axis at right angles to the first axis, the second frame defining a vibratory mass,at least one four-terminal piezo voltage sensors, incorporated into at least one of said first set and at least one of said second set of hinges, each of said piezo sensors having at least two spaced apart current electrodes on the surface of the hinges making ohmic contact to an adjacent layer of silicon with an area of the silicon between the current electrodes defining a resistive element, said electrodes positioned to transmit current through said resistive element along a vector, the sensors also having at least two spaced apart voltage sensing electrodes disposed along a line generally perpendicular to said vector, means for measuring a voltage between said two spaced apart voltage sensing electrodes, means for increasing a density of a current flow in the resistive element so that the current flow density is at least doubled, whereby shear forces present in each of the first and second set of hinges alter a resistivity of the resistive element generating a voltage indicating torsion force, anddrive means to make the second silicon frame oscillate at the natural resonant frequency around the second axis at a constant amplitude, with a piezo sensor attached to a hinge of the second set of hinges providing positive feedback to control a frequency at which the second silicon frame oscillates.
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Accused Products
Abstract
A monolithic single crystal Si rate-gyro consisting of in the preferred embodiment, an outer torsional frame, self resonating with a substantial amplitude, as controlled by a four-terminal piezo torsion sensor, connected to an inner frame by torsional hinges. The inner frame itself is connected to a fixed inner post, by a set of torsion hinges, defining an axis of rotation perpendicular to the first axis. Rotation of the axis of oscillation of the outer body causes the moving mass and the inner frame to tilt and oscillate at the outer frequency due to Coriolis forces, thereby periodically deforming the inner hinges in torsion. These inner hinges are likewise equipped with a four-terminal piezo voltage torsion sensor, giving an indication of the rate of rotation of the sensor. The design allows for good sensitivity, due to the substantial swing of the outer oscillator, its high moment of inertia, excellent Si spring characteristics, and excellent sensitivity of the torsional sensors. Because of the integration of all of parts in silicon and its inherent simplicity, it can be made very inexpensively.
222 Citations
10 Claims
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1. A vibratory gyroscopic silicon transducer, comprising,
a silicon micromachined inner post, having a top surface defining an x-y plane, a first silicon frame, surrounding the post, a first set of single crystal silicon hinges connected between the first silicon frame and the inner post, with the hinges defining a first axis, a second silicon frame, surrounding the post and the first frame, the second silicon frame having a natural resonant frequency, a second set of single crystal silicon hinges connected between the first and second silicon frames, defining a second axis at right angles to the first axis, the second frame defining a vibratory mass, at least one four-terminal piezo voltage sensors, incorporated into at least one of said first set and at least one of said second set of hinges, each of said piezo sensors having at least two spaced apart current electrodes on the surface of the hinges making ohmic contact to an adjacent layer of silicon with an area of the silicon between the current electrodes defining a resistive element, said electrodes positioned to transmit current through said resistive element along a vector, the sensors also having at least two spaced apart voltage sensing electrodes disposed along a line generally perpendicular to said vector, means for measuring a voltage between said two spaced apart voltage sensing electrodes, means for increasing a density of a current flow in the resistive element so that the current flow density is at least doubled, whereby shear forces present in each of the first and second set of hinges alter a resistivity of the resistive element generating a voltage indicating torsion force, and drive means to make the second silicon frame oscillate at the natural resonant frequency around the second axis at a constant amplitude, with a piezo sensor attached to a hinge of the second set of hinges providing positive feedback to control a frequency at which the second silicon frame oscillates.
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8. A vibratory gyroscopic silicon transducer, comprising,
a fixed silicon micromachined inner post, having top surface defining an x-y plane, a first silicon frame, surrounding the post, a first set of single crystal silicon hinges connected between the first silicon frame and the inner post, the hinges defining a first axis, with the first silicon frame attached thereto for movement about the first axis, a second silicon frame, surrounding both the post and the first frame, the second silicon frame having a natural resonant frequency, a second set of single crystal silicon hinges connected between the first and second silicon frames, defining a second axis at right angles to the first axis, the second frame attached thereto for movement about the second axis, defining a vibratory mass, at least one four-terminal piezo voltage sensors, incorporated into at least one of said first set and at least one of said second set of hinges, each of said piezo voltage sensors including a resistive element defined by a nominal resistivity of the crystal silicon hinges to sense torsion in said hinges in which the piezo sensors are incorporated, drive means to make the second silicon frame oscillate at the natural resonant frequency around the second axis at a constant amplitude, with at least one of said piezo sensors attached to a hinge of the second set of hinges providing positive feedback to control a frequency at which the second silicon frame oscillates.
Specification