Vibrating beam accelerometer

US 5,461,918 A
Filed: 04/26/1993
Issued: 10/31/1995
Est. Priority Date: 04/26/1993
Status: Expired due to Term

First Claim

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1. An accelerometer comprising a substrate, a base mounted on the substrate, one or more pairs of cantilevered beams joined to the base, drive means operatively associated with each beam for driving said beams in vibration at a resonant frequency, and sensing means operatively associated with each beam for detecting changes in the resonant frequency of each beam;

whereineach of said cantilevered beams has a fixed end and a free end, and the beams within each pair of cantilevered beams are aligned along a common major axis or along parallel major axes such that the major axes of the two said cantilevered beams within a pair extend in opposite directions away from their respective fixed ends.

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Abstract

A device for measuring acceleration based on the shift in resonant frequency of a vibrating cantilevered beam in response to an acceleration force having a component along its major axis is disclosed. Such accelerometers may be manufactured by micromachining in silicon, and comprise one or more beams, each provided with drive means for keeping the beam in vibration at the resonant frequency, and detection means for sensing changes in the resonant frequency. The sensitivity of accelerometers according to the invention is determined by the length of the cantilevered beam, a factor easily controlled during manufacture, and by the resonant frequency of the beam, which is continuously measured in use. Accelerometers constructed according to the invention are self-calibrating, self-testing and susceptible to large-scale batch manufacture.

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15 Claims

1. An accelerometer comprising a substrate, a base mounted on the substrate, one or more pairs of cantilevered beams joined to the base, drive means operatively associated with each beam for driving said beams in vibration at a resonant frequency, and sensing means operatively associated with each beam for detecting changes in the resonant frequency of each beam;
- whereineach of said cantilevered beams has a fixed end and a free end, and the beams within each pair of cantilevered beams are aligned along a common major axis or along parallel major axes such that the major axes of the two said cantilevered beams within a pair extend in opposite directions away from their respective fixed ends.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
- - 2. An accelerometer according to claim 1 further comprising at least two pairs of cantilevered beams, wherein a first pair of said cantilevered beams is disposed orthogonally to a second pair of said cantilevered beams.
  - 3. An accelerometer according to claim 1 wherein the base and each of the cantilevered beams are electrically conductive and the substrate is electrically insulated from said base and from said cantilevered beams.
  - 4. An accelerometer according to claim 1 wherein a substantial portion of the length of each of the cantilevered beams extends beyond the said base.
  - 5. An accelerometer according to claim 1 wherein the means for driving said cantilevered beams in vibration at a resonant frequency comprises separate driving means for each of the said beams.
  - 6. An accelerometer according to claim 1 wherein the means for detecting changes in the said resonant frequency comprises a signal processing circuit including a frequency measuring circuit for each cantilevered beam and a circuit for determining the difference between the changes in resonant frequencies of the beams in each pair of cantilevered beams.
  - 7. An accelerometer according to claim 1 further comprising means for hermetically sealing the cantilevered beams in a vacuum.
  - 8. An accelerometer according to claim 1 wherein the means for driving said beams in vibration at a resonant frequency and the means for detecting changes in the said resonant frequency comprise drive electrodes and associated sensing electrodes disposed upon a top surface of the substrate and extending beneath the cantilevered beams, such that each drive electrode and each associated sensing electrode is separated from one of said beams by a gap.
  - 9. An accelerometer according to claim 1 wherein the means for driving said beams in vibration at a resonant frequency comprises electrostatic, piezoelectric or thermal drive means.
  - 10. An accelerometer according to claim 1 wherein the means for detecting changes in the said resonant frequency comprises capacitive, piezoelectric, piezoresistive or optical sensing means.
  - 11. An accelerometer according to claim 1 wherein the means for driving said beams in vibration at a resonant frequency and the means for detecting changes in the said resonant frequency comprise a signal processing circuit including at least a current amplifier operatively disposed to receive a signal from the sensing means, a phase-sensitive detector operatively disposed to process the output signal from the current amplifier, a voltage controlled oscillator operatively disposed to receive the output of the phase-sensitive detector, a period counter operatively disposed to measure the durations of a prescribed number of periods of a beam'"'"'s vibrations and a microprocessor operatively disposed to receive the output of the period counter.
  - 12. An accelerometer according to claim 1 wherein the means for driving said beams in vibration at a resonant frequency and the means for detecting changes in the said resonant frequency comprise an oscillator circuit wherein the cantilevered beams function as electromechanical feedback elements.
  - 13. An accelerometer according to claim 1 wherein each cantilevered beam is of essentially uniform cross-section.
  - 14. An accelerometer according to claim 1 wherein each cantilevered beam has a length of approximately 500 μ
    - m, a width of approximately 10 μ
      
      m, and a thickness of approximately 3 μ
      
      m.

15. An accelerometer comprising a substrate, a base mounted on the substrate, one or more pairs of cantilevered beams, each beam having a fixed end joined to the base and a free end, means disposed about the base for hermetically sealing the cantilevered beams in vacuum;
- means operatively associated with each beam for driving said beams in vibration at a resonant frequency, and means operatively associated with each beam for detecting changes in the resonant frequency of each beam;
  
  whereinthe substrate comprises glass or other dielectric material;
  
  the base and each of the cantilevered beams are electrically conductive and the substrate is electrically insulated from said base and from said cantilevered beams;
  
  each of said cantilevered beams has a length of approximately 500 μ
  
  m, a width of approximately 10 μ
  
  m, and a thickness of approximately 3 μ
  
  m, and is of essentially uniform cross-section;
  
  the beams within each pair of cantilevered beams are aligned along a common major axis or along parallel major axes such that the major axes of the two said cantilevered beams within a pair extend in opposite directions away from their respective fixed points; and
  
  ,the means for driving said beams in vibration at a resonant frequency and the means for detecting changes in the said resonant frequency comprise drive electrodes and associated sensing electrodes disposed upon a top surface of the substrate and extending beneath the cantilevered beams, such that each drive electrode and each associated sensing electrode is separated from a corresponding one of said beams by a gap, a signal processing circuit including at least a current amplifier, a phase-sensitive detector, a voltage controlled oscillator, a period counter and a microprocessor.

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Current Assignee
University of Michigan
Original Assignee
Ford Motor Company
Inventors
Mozurkewich, George
Primary Examiner(s)
Chilcot, Richard
Assistant Examiner(s)
FELBER, JOSEPH LEON

Application Number

US08/001,690
Time in Patent Office

918 Days
Field of Search

73/517 AV, 73/517 A, 73/DIG. 1, 73/862.59, 73/505, 73/517 R
US Class Current

73/514.26
CPC Class Codes

G01P 15/097 by vibratory elements

Vibrating beam accelerometer

First Claim

2 Assignments

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Abstract

35 Citations

15 Claims

Specification

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Vibrating beam accelerometer

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

35 Citations

15 Claims

Specification

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Solutions

Use Cases

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