Compensated integrated micro-machined yaw rate sensor
First Claim
1. A micro-machined gyro sensor capable of measuring an externally imposed velocity comprising:
- a mass coupled to a rigid annular support by a first pair of opposing flexible members and a second pair of opposing flexible members, wherein the first pair of members define a first axis, and wherein the second pair of members define a second axis substantially orthogonal to the first axis;
a pair of piezo electric driving elements deposited on the first pair of members;
a first piezo electric sensing element deposited on one of the first pair of members, wherein the first sensing element generates a first signal proportional to the oscillation of the mass along the first axis;
a second piezo electric sensing element deposited on one of the second pair of members, wherein the second sensing element generates a second signal proportional to the oscillation of the mass along the second axis;
a control circuit coupled to the driving elements, wherein the control circuit generates a control signal which when applied to the driving elements causes the mass to oscillate along the first axis; and
a detection circuit coupled to the first and second sensing elements, wherein the detection circuit compares the first and second signals and generates an output signal proportional to the imposed velocity.
1 Assignment
0 Petitions
Accused Products
Abstract
An integrated circuit combines micro-machined elements, piezoelectric elements and signal processing components as part of a compensated oscillating gyroscopic sensor for angular motion detection. An oscillating mass is supported on a number of flexible beams micro-machined into an integrated circuit device, such as a silicon CMOS device. Several Piezo-electric elements are also coupled to the beams to excite the mass and to measure the accelerations. Integrated in the device are electronic circuitry that initiates and maintains the oscillation and electronic circuitry that detects and measures the subsequent motion. Additional circuitry is also provided to determine the Coriolis acceleration and thus the magnitude of the external perturbing velocity.
-
Citations
16 Claims
-
1. A micro-machined gyro sensor capable of measuring an externally imposed velocity comprising:
-
a mass coupled to a rigid annular support by a first pair of opposing flexible members and a second pair of opposing flexible members, wherein the first pair of members define a first axis, and wherein the second pair of members define a second axis substantially orthogonal to the first axis;
a pair of piezo electric driving elements deposited on the first pair of members;
a first piezo electric sensing element deposited on one of the first pair of members, wherein the first sensing element generates a first signal proportional to the oscillation of the mass along the first axis;
a second piezo electric sensing element deposited on one of the second pair of members, wherein the second sensing element generates a second signal proportional to the oscillation of the mass along the second axis;
a control circuit coupled to the driving elements, wherein the control circuit generates a control signal which when applied to the driving elements causes the mass to oscillate along the first axis; and
a detection circuit coupled to the first and second sensing elements, wherein the detection circuit compares the first and second signals and generates an output signal proportional to the imposed velocity. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
-
-
11. A micro-machined gyro sensor capable of measuring an externally imposed velocity comprising:
-
a mass coupled to a rigid annular support by a first pair of opposing flexible members and a second pair of opposing flexible members, wherein the first pair of members define a first axis, and wherein the second pair of members define a second axis substantially orthogonal to the first axis;
driving means coupled to the first pair of members for causing the mass to oscillate along the first axis, wherein the driving means includes a pair of driving elements deposited on the first pair of members; and
control means, coupled to the driving elements, for generating a control signal which when applied to the driving elements causes the mass to oscillate along the first axis;
detection means, coupled to one of the first pair of members and one of the second pair of members, for detecting and comparing oscillations of the mass along the first axis and along the second axis so as to measure the Coriolis acceleration caused by the imposed velocity, wherein the detection means includes a means for generating a first signal proportional to the oscillations of the mass along the first axis; and
wherein the control means includes means for altering the control signal in response to the first signal so as to maintain oscillation of the mass along the first axis at a desired amplitude and frequency. - View Dependent Claims (12, 13, 14)
-
-
15. A micro-machined gyro sensor capable of measuring an externally imposed velocity, comprising:
-
a mass coupled to a rigid annular support by a first pair of opposing flexible members and a second pair of opposing flexible members, wherein the first pair of members define a first axis, and wherein the second pair of members define a second axis substantially orthogonal to the first axis;
a pair of piezo electric driving elements deposited on the first pair of members;
a first pair of piezo electric sensing elements deposited on the first pair of members, wherein the first pair of sensing elements generates first signals proportional to the oscillation of the mass along the first axis;
a second pair of piezo electric sensing elements deposited on the second pair of members, wherein the second pair of sensing elements generates second signals proportional to the oscillation of the mass along the second axis;
a control circuit coupled to the driving elements, wherein the control circuit generates a control signal which when applied to the driving elements causes the mass to oscillate along the first axis; and
a detection circuit coupled to the first and second pairs of sensing elements, wherein the detection circuit processes the first and second signals so as to generate an output signal proportional to the imposed velocity.
-
-
16. A micro-machined gyro sensor capable of measuring an externally imposed velocity comprising:
-
a mass coupled to a rigid annular support by a first pair of opposing flexible members and a second pair of opposing flexible members, wherein the first pair of members define a first axis, and wherein the second pair of members define a second axis substantially orthogonal to the first axis;
driving means coupled to the first pair of members for causing the mass to oscillate along the first axis, wherein the driving means includes a pair of driving elements deposited on the first pair of members; and
control means, coupled to the driving elements, for generating a control signal which when applied to the driving elements causes the mass to oscillate along the first axis;
detection means, coupled to the first pair of members and the second pair of members, for detecting oscillations of the mass along the first axis and along the second axis so as to measure the Coriolis acceleration caused by the imposed velocity, wherein the detection means includes a means for generating a first signal proportional to the oscillations of the mass along the first axis; and
wherein the control means includes means for altering the control signal in response to the first signal so as to maintain oscillation of the mass along the first axis at a desired amplitude and frequency.
-
Specification