Capacitive drive vibrating beam accelerometer

US 5,456,111 A
Filed: 01/24/1994
Issued: 10/10/1995
Est. Priority Date: 01/24/1994
Status: Expired due to Term

First Claim

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1. A vibrating beam accelerometer, comprising:

a casing;

a pendulum;

a pair of flexures which enable said pendulum to rotate with respect to said casing;

a force transducer including at least two vibrating beams having a predetermined length, connected between said casing and said pendulum;

at least one first electrode formed on said beams;

a capacitance plate disposed adjacent said beams which includes at least one second electrode which corresponds to said first electrode formed on said beams; and

means for minimizing squeeze film damping of said beams in order to enable the accelerometer to be operated at pressures greater than vacuum.

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Abstract

A micromachined vibrating beam accelerometer provides an acceptable mechanical Q at pressures above vacuum. Electrodes are formed on the beams for connection to a source of excitation voltage. In addition, electrodes are formed on a pick-off capacitance plate disposed adjacent the vibrating beams. The electrodes formed on the pick-off capacitance plate form capacitors with the electrodes formed on the beam. The output signals from these capacitors are connected in a feedback loop to the source of excitation voltage to form a relatively simple oscillator. In order to reduce the squeeze film damping, the pick-off capacitance plate is formed with grooves along one edge adjacent the vibrating beams. The grooves, which may be formed by either isotropic or reactive ion etching, reduce the squeeze film damping resulting from the vibratory motion to obviate the need to operate the vibrating beam accelerometer in a vacuum. As such, the vibrating beam accelerometer in accordance with the present invention is capable of providing an acceptable mechanical Q at pressures above vacuum, for example, up to one atmosphere. By obviating the need for the vibrating beams to operate in a vacuum, the cost of the housing for the accelerometer is significantly reduced.

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9 Claims

1. A vibrating beam accelerometer, comprising:
- a casing;
  
  a pendulum;
  
  a pair of flexures which enable said pendulum to rotate with respect to said casing;
  
  a force transducer including at least two vibrating beams having a predetermined length, connected between said casing and said pendulum;
  
  at least one first electrode formed on said beams;
  
  a capacitance plate disposed adjacent said beams which includes at least one second electrode which corresponds to said first electrode formed on said beams; and
  
  means for minimizing squeeze film damping of said beams in order to enable the accelerometer to be operated at pressures greater than vacuum.
- View Dependent Claims (5, 6, 8)
- - 5. A vibrating beam accelerometer as recited in claim 1, wherein said capacitance plate is disposed above said beams.
  - 6. A vibrating beam accelerometer as recited in claim 1, wherein said capacitance plate is disposed below said beams.
  - 8. A vibrating beam accelerometer as recited in claim 1, wherein said said capacitance plate is formed to cover a predetermined portion of said predetermined length of said beams.

2. A vibrating beam accelerometer comprisinga casing;
- a pendulum;
  
  a pair of flexures which enable said pendulum to rotate with respect to said casing;
  
  a force transducer including at least two vibrating beams having a predetermined length, connected between said casing and said pendulum;
  
  at least one first electrode formed on said beams;
  
  a capacitance plate disposed adjacent said beams which includes at least one second electrode which corresponds to said first electrode formed on said beams; and
  
  means for minimizing squeeze film damping in order to enable the accelerometer to be operated at pressures greater than vacuum, wherein said minimizing means includes generally rectangular shaped grooves formed on said capacitance plate.

3. A vibrating beam accelerometer comprisinga casing;
- a pendulum;
  
  a pair of flexures which enable said pendulum to rotate with respect to said casing;
  
  a force transducer including at least two vibrating beams having a predetermined length, connected between said casing and said pendulum;
  
  at least one first electrode formed on said beams;
  
  a capacitance plate disposed adjacent said beams which includes at least one second electrode which corresponds to said first electrode formed on said beams; and
  
  means for minimizing squeeze film damping in order to enable the accelerometer to be operated at pressures greater than vacuum, wherein said minimizing means includes generally triangular shaped grooves formed on said capacitance plate.

4. A vibrating beam accelerometer, comprising:
- a casing;
  
  a pendulum;
  
  a pair of flexures which enables said pendulum to rotate with respect to said casing;
  
  a force transducer including at least two vibrating beams having a predetermined length, connected between said casing and said pendulum;
  
  a least one first electrode formed on said beams;
  
  a capacitance plate disposed adjacent said beams which includes at least one second electrode which corresponds to said first electrode formed on said beams; and
  
  means for minimizing squeeze film damping in order to enable the accelerometer to be operated at pressures greater than vacuum, wherein said minimizing means includes grooves formed on said vibrating beams.

7. A vibrating beam accelerometer comprising:
- a casing;
  
  a pendulum;
  
  a pair of flexures which enable said pendulum to rotate with respect to said casing;
  
  a force transducer including at least two beams connected between said casing and said pendulum;
  
  at least one first electrode formed on said beams;
  
  a capacitance plate disposed adjacent said beams which includes at least one second electrode which corresponds to said first electrode formed on said beams; and
  
  means for minimizing squeeze film damping, wherein said minimizing means includes grooves formed on said vibrating beams, said grooves formed with a width L1 and spaced apart by a width L2 and wherein said ratio of L2/L1 is 2;
  
  1.

9. A vibrating beam accelerometer comprising:
- a casing;
  
  a pendulum;
  
  a pair of flexures which enable said pendulum to rotate with respect to said casing;
  
  a force transducer including at least two beams, connected between said casing and said pendulum;
  
  at least one first electrode formed on said beams;
  
  a capacitance plate disposed adjacent said beams which includes at least one second electrode which corresponds to said first electrode formed on said beams; and
  
  means for minimizing squeeze film damping of said beams;
  
  wherein said capacitance plate is formed to cover a predetermined portion of said predetermined length of said beams, said predetermined portion being in the range between 60% and 80%.

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Current Assignee
Alliedsignal Inc.
Original Assignee
Alliedsignal Inc.
Inventors
Hulsing, Rand H. II
Primary Examiner(s)
Williams, Hezron E.
Assistant Examiner(s)
Oda, Christine K.

Application Number

US08/185,630
Time in Patent Office

624 Days
Field of Search

73/516 R, 73/DIG. 4, 73/724, 73/718, 73/517 R, 73/517 B, 73/DIG. 1, 73/517 AV, 73/862.59
US Class Current

73/514.32
CPC Class Codes

G01P 15/097   by vibratory elements

G01P 15/125   by capacitive pick-up

G01P 2015/0828   the mass being of the paddl...

Capacitive drive vibrating beam accelerometer

First Claim

1 Assignment

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Abstract

58 Citations

9 Claims

Specification

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Capacitive drive vibrating beam accelerometer

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

58 Citations

9 Claims

Specification

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Solutions

Use Cases

Quick Links