Multi-axis micromachined accelerometer and rate sensor

US 20070220973A1
Filed: 04/11/2007
Published: 09/27/2007
Est. Priority Date: 08/12/2005
Status: Abandoned Application

First Claim

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1. A micromachined accelerometer and rate sensor for detecting acceleration along first and second axes and rate of rotation about a third axis, comprising:

a mass mounted for torsional movement about the first axis in response to acceleration along the second axis and for rotational motion about the second axis in response to acceleration along the first axis, means for driving the mass to oscillate about the second axis in a drive mode so that Coriolis forces produced by rotation about the third axis result in torsional movement of the mass about the first axis, a first sensor for monitoring torsional movement of the mass about the first axis, a second sensor for monitoring rotational movement of the mass about the second axis, means responsive to signals from the first sensor for providing output signals corresponding to acceleration along the second axis and rate of rotation about the third axis, and means responsive to signals from the second sensor for providing an output signal corresponding to acceleration along the first axis.

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Abstract

Multi-axis micromachined accelerometer and rate sensor having first and second generally planar masses disposed side-by-side and connected together along adjacent edge portions thereof for torsional movement about axes parallel to a first axis in response to acceleration along a second axis and for rotational motion about axes parallel to the second axis in response to acceleration along the first axis. The masses are driven to oscillate about the axes parallel to the second axis so that Coriolis forces produced by rotation about a third axis result in torsional movement of the masses about the axes parallel to the first axis. Sensors monitor the movement of the mass about the axes, and signals from the sensors are processed to provide output signals corresponding to acceleration along the first and second axes and rotation about the third axis.

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20 Claims

1. A micromachined accelerometer and rate sensor for detecting acceleration along first and second axes and rate of rotation about a third axis, comprising:
- a mass mounted for torsional movement about the first axis in response to acceleration along the second axis and for rotational motion about the second axis in response to acceleration along the first axis, means for driving the mass to oscillate about the second axis in a drive mode so that Coriolis forces produced by rotation about the third axis result in torsional movement of the mass about the first axis, a first sensor for monitoring torsional movement of the mass about the first axis, a second sensor for monitoring rotational movement of the mass about the second axis, means responsive to signals from the first sensor for providing output signals corresponding to acceleration along the second axis and rate of rotation about the third axis, and means responsive to signals from the second sensor for providing an output signal corresponding to acceleration along the first axis.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The accelerometer and rate sensor of claim 1 wherein the mass is generally planar and is spaced from a substrate, with the first axis perpendicular to the substrate and the second and third axes parallel to the substrate.
  - 3. The accelerometer and rate sensor of claim 2 wherein the mass is mounted on an inner frame for rotational movement about the second axis, and the inner frame is mounted to the substrate for torsional movement about the first axis.
  - 4. The accelerometer and rate sensor of claim 1 wherein the mass is driven to oscillate at the resonant frequency of the drive mode.
  - 5. The accelerometer and rate sensor of claim 1 wherein the mass is driven to oscillate at a frequency on the order of 4 kHz-15 kHz.
  - 6. The accelerometer and rate sensor of claim 1 wherein the means for providing output signals corresponding to acceleration along the second axis and rotation about the third axis includes filters for selectively passing signals from the first sensor corresponding to acceleration along the second axis and rotation about the third axis.
  - 7. The accelerometer and rate sensor of claim 6 wherein the filters include a low pass filter for passing signals corresponding to acceleration and a bandpass filter for passing signals corresponding to rotation.

8. A micromachined accelerometer and rate sensor for detecting acceleration along first and second mutually perpendicular axes and rate of rotation about a third axis perpendicular to the first and second axes, comprising:
- first and second generally planar masses disposed side-by-side and connected together along adjacent edge portions thereof for torsional movement about axes parallel to the first axis in response to acceleration along the second axis and for rotational motion about axes parallel to the second axis in response to acceleration along the first axis, means for driving the masses to oscillate about the axes parallel to the second axis so that Coriolis forces produced by rotation about the third axis result in torsional movement of the masses about the axes parallel to the first axis, first sensors for monitoring torsional movement of the masses about the axes parallel to the first axis, second sensors for monitoring rotational movement of the masses about the axes parallel to the second axis, means responsive to signals from the first sensors for providing output signals corresponding to acceleration along the second axis and rate of rotation about the third axis, and means responsive to signals from the second sensors for providing an output signal corresponding to acceleration along the first axis.
- View Dependent Claims (9, 10, 11)
- - 9. The accelerometer and rate sensor of claim 8 wherein the masses are spaced from and generally planar to a substrate, with the first axis perpendicular to the substrate and the second and third axes in a plane parallel to the substrate.
  - 10. The accelerometer and rate sensor of claim 8 wherein the sensors comprise capacitors having capacitances corresponding to the torsional and rotational positions of the masses.
  - 11. The accelerometer and rate sensor of claim 10 wherein the means for providing output signals corresponding to acceleration along the second axis and rotation about the third axis includes filters for selectively passing signals from the capacitors corresponding to acceleration along the second axis and rotation about the third axis.

12. A micromachined accelerometer and rate sensor for detecting acceleration along lateral and longitudinal axes of a vehicle and rate of rotation about a yaw axis, comprising:
- a mass mounted for torsional movement about the lateral axis in response to acceleration along the longitudinal axis and for rotational motion about the longitudinal axis in response to acceleration along the lateral axis, means for driving the mass to oscillate about the longitudinal axis in a drive mode so that Coriolis forces produced by rotation about the yaw axis result in torsional movement of the mass about the lateral axis, and means responsive to movement of the mass about the lateral and longitudinal axes for providing output signals corresponding to acceleration along the lateral and longitudinal axes and to rate of rotation about the yaw axis.
- View Dependent Claims (13, 14, 15)
- - 13. The accelerometer and rate sensor of claim 12 wherein the mass is generally planar and is spaced from a substrate, with the lateral axis perpendicular to the substrate and the longitudinal and yaw axes parallel to the substrate.
  - 14. The accelerometer and rate sensor of claim 12 wherein the mass is driven to oscillate at the resonant frequency of the drive mode.
  - 15. The accelerometer and rate sensor of claim 12 wherein the mass is driven to oscillate at a frequency on the order of 4 kHz-15 kHz.

16. A micromachined accelerometer and rate sensor for detecting acceleration along first and second axes and rate of rotation about a third axis, comprising:
- a mass mounted for torsional movement about the first axis in response to acceleration along the second axis and for rotational motion about the second axis in response to acceleration along the first axis, means for driving the mass to oscillate about the second axis so that Coriolis forces produced by rotation about the third axis result in torsional movement of the mass about the first axis, a first sensor for monitoring torsional movement of the mass about the first axis, a second sensor for monitoring rotational movement of the mass about the second axis, a first filter connected to the first sensor for passing signals corresponding to acceleration along the second axis, a second filter connected to the first sensor for passing signals corresponding to rate of rotation about the third axis, and a filter connected to the second sensor for passing signals corresponding to acceleration along the first axis.
- View Dependent Claims (17, 18, 19, 20)
- - 17. The accelerometer and rate sensor of claim 16 wherein the first filter is a low-pass filter, and the second filter is a bandpass filter.
  - 18. The accelerometer and rate sensor of claim 16 wherein the filter connected to the second sensor is a low-pass filter.
  - 19. The accelerometer and rate sensor of claim 16 wherein the means for driving the mass to oscillate about the second axis comprises a drive circuit with a filter providing feedback signals to the drive circuit from the second sensor.
  - 20. The accelerometer of claim 19 wherein the filter which provides feed back signals to the drive circuit is a bandpass filter.

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Current Assignee
Custom Sensors & Technologies Incorporated (Schneider Electric SE)
Original Assignee
Custom Sensors & Technologies Incorporated (Schneider Electric SE)
Inventors
Acar, Cenk

Application Number

US11/734,156
Publication Number

US 20070220973A1
Time in Patent Office

Days
Field of Search
US Class Current

73/504.120
CPC Class Codes

G01C 19/5712   the devices involving a mic...

G01C 19/5719   using planar vibrating mass...

G01P 15/0888   for indicating angular acce...

G01P 15/125   by capacitive pick-up

G01P 15/18   in two or more dimensions

G01P 2015/082   for two degrees of freedom ...

Multi-axis micromachined accelerometer and rate sensor

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Abstract

89 Citations

20 Claims

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Multi-axis micromachined accelerometer and rate sensor

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

89 Citations

20 Claims

Specification

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Use Cases

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Others