Angular velocity sensor and a sensor apparatus incorporating the same

US 5,131,273 A
Filed: 07/06/1990
Issued: 07/21/1992
Est. Priority Date: 07/07/1989
Status: Expired due to Term

First Claim

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1. An angular velocity sensor comprising:

a pair of sensor elements each including a vibratory piezoelectric detecting element and a vibratory piezoelectric drive element joined together in longitudinal alignment and oriented at an angle of 90 degrees relative to each other;

a joining member joining respective free ends of said drive elements so as to form, jointly with said sensor elements, a tuning-fork structure, said tuning-fork structure having a sense axis; and

said detecting elements having planar shapes defining respective detecting planes which are symmetric about a first plane containing said sense axis of said tuning-fork structure and disposed out of alignment with a second plane extending perpendicular to said first plane.

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Abstract

An angular velocity sensor includes a pair of vibratory piezoelectric detecting elements defining detecting planes which are disposed in symmetry about a plane containing the sense axis and out of right-angled orientation with respect to this plane. The detecting elements thus arranged assume a widely spread or flattened V-shaped configuration as viewed from above. Output signals of opposite polarities received from the respective detecting elements are weighted respectively and added together so as to cancel out unwanted leak component signals. Thus, leak component signals resulting from assembling tolerances can be canceled. In this instance, if the characteristics of two sensor elements each including one of the detecting elements are fully equivalent, a leak component signal dependent on a disturbing inertial force can simultaneously be canceled out. With this construction, the variation of the offset voltage can be reduced even when the sensor is subjected to a great change in environmental conditions including temperature.

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12 Claims

1. An angular velocity sensor comprising:
- a pair of sensor elements each including a vibratory piezoelectric detecting element and a vibratory piezoelectric drive element joined together in longitudinal alignment and oriented at an angle of 90 degrees relative to each other;
  
  a joining member joining respective free ends of said drive elements so as to form, jointly with said sensor elements, a tuning-fork structure, said tuning-fork structure having a sense axis; and
  
  said detecting elements having planar shapes defining respective detecting planes which are symmetric about a first plane containing said sense axis of said tuning-fork structure and disposed out of alignment with a second plane extending perpendicular to said first plane.

2. An angular velocity sensor comprising:
- a pair of sensor elements each including a vibratory piezoelectric detecting element add a vibratory piezoelectric drive element joined together in longitudinal alignment and disposed out of right-angled orientation with each other;
  
  a joining member joining respective free ends of said drive elements so as to form, jointly with said sensor element, a tuning-fork structure, said tuning-fork structure having a sense axis; and
  
  said drive elements having planar shapes defining respective vibrating-element planes extending parallel to a plane containing said sense axis of said tuning-fork structure.

3. An angular velocity sensor apparatus comprises:
- an angular velocity sensor includinga pair of sensor elements each composed of a vibratory piezoelectric detecting element and a vibratory piezoelectric drive element joined together in longitudinal alignment and oriented at an angle of 90 degrees relative to each other,a joining member joining respective free ends of said drive elements so as to form, jointly with said sensor elements, a tuning-fork structure, said tuning-fork structure having a sense axis, andsaid detecting elements having planar shapes defining respective detecting planes which are symmetric about a first plane containing said sense axis of said tuning-fork structure and disposed out of alignment with a second plane extending perpendicular to said first plane; and
  
  means for detecting output signals from said detecting elements and processing the detected output signals to produce an output signal which is adjusted to be zero when an angular velocity component of the detected output signals is zero, thereby adjusting leak component signals representing drift components.

4. An angular velocity sensor apparatus comprising:
- an angular velocity sensor includinga pair of sensor elements each composed of a vibratory piezoelectric detecting element and a vibratory piezoelectric drive element joined together in longitudinal alignment and disposed out of right-angled orientation with each other,a joining member joining respective free ends of said drive elements so as to form, jointly with said sensor elements, a tuning-fork structure, said tuning-fork structure having a sense axis, andsaid drive elements having planar shapes defining respective vibrating-element planes extending parallel to a plane containing said sense axis of said tuning-fork structure; and
  
  means for detecting output signals from said detecting elements and processing the detected output signals to produce an output signal which is adjusted to be zero when an angular velocity component of the detected output signals is zero, thereby adjusting leak component signals representing drift components.

5. An angular velocity sensor apparatus comprises:
- an angular velocity sensor includinga pair of sensor elements each composed of a vibratory piezoelectric detecting element and a vibratory piezoelectric drive element joined together in longitudinal alignment and oriented at an angle of 90 degrees relative to each other,a joining member joining respective free ends of said drive elements so as to form, jointly with said sensor elements, a tuning-fork structure, said tuning-fork structure having a sense axis, andsaid detecting elements having planar shapes defining respective detecting planes which are symmetric about a first plane containing said sense axis of said tuning-fork structure and disposed out of alignment with a second plane extending perpendicular to said first plane;
  
  a pair of preamplifiers for converting output signals from said respective detecting elements into low impedance signals; and
  
  means for weighting the respective low impedance signals and adding them together.

6. An angular velocity sensor apparatus comprising:
- an angular velocity sensor includinga pair of sensor elements each composed of a vibratory piezoelectric detecting element and a vibratory piezoelectric drive element joined together in longitudinal alignment and disposed out of right-angled orientation with each other,a joining member joining respective free ends of said drive elements so as to form, jointly with said sensor elements, a tuning-fork structure, said tuning-fork structure having a sense axis, andsaid drive elements having planar shapes defining respective vibrating-element planes extending parallel to a plane containing said sense axis of said tuning-fork structure;
  
  a pair of preamplifiers for converting output signals from said respective detecting elements into low impedance signals; and
  
  means for weighting the respective low impedance signals and adding them together.

7. An angular velocity sensor apparatus comprises:
- an angular velocity sensor includinga pair of sensor elements each composed of a vibratory piezoelectric detecting element and a vibratory piezoelectric drive element joined together in longitudinal alignment and oriented at an angle of 90 degrees relative to each other,a joining member joining respective free ends of said drive elements so as to form, jointly with said sensor elements, a tuning-fork structure, said tuning-fork structure having a sense axis, andsaid detecting elements having planar shapes defining respective detecting planes which are symmetric about a first plane containing said sense axis of said tuning-fork structure and disposed out of alignment with a second plane extending perpendicular to said first plane;
  
  a housing for receiving therein said angular velocity sensor, anda heat insulating member disposed on said housing to fully enclose the same.
- View Dependent Claims (8, 9)
- - 8. An angular velocity sensor apparatus according to claim 7 wherein said housing has a cylindrical shape, said heat insulating member having a hole having an inside diameter slightly smaller than the outside diameter of said cylindrical housing, said housing being press-fitted in said hole.
  - 9. An angular velocity sensor apparatus according to claim 7, further including at least one layer of heat storage material disposed between said housing and said heat insulating member.

10. An angular velocity sensor apparatus comprising:
- an angular velocity sensor includinga pair of sensor elements each composed of a vibratory piezoelectric detecting element and a vibratory piezoelectric drive element joined together in longitudinal alignment and disposed out of right-angled orientation with each other,a joining member joining respective free ends of said drive elements so as to form, jointly with said sensor elements, a tuning-fork structure, said tuning-fork structure having a sense axis, andsaid drive elements having planar shapes defining respective vibrating-element planes extending parallel to a plane containing said sense axis of said tuning-fork structure;
  
  a housing for receiving therein said angular velocity sensor; and
  
  a heat insulating member disposed on said housing to fully enclose the same.
- View Dependent Claims (11, 12)
- - 11. An angular velocity sensor apparatus according to claim 10 wherein said housing has a cylindrical shape, said heat insulating member having a hole having an inside diameter slightly smaller than the outside diameter of said cylindrical housing, said housing being press-fitted in said hole.
  - 12. An angular velocity sensor apparatus according to claim 10, further including at least one layer of heat storage material disposed between said housing and said heat insulating member.

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Current Assignee
Matsushita Electric Industrial Company Limited (Panasonic Holdings Corporation)
Original Assignee
Matsushita Electric Industrial Company Limited (Panasonic Holdings Corporation)
Inventors
Yoshida, Tsunenori, Kawamata, Tadashi, Yoshida, Tomio, Kimura, Suzushi, Tabata, Munehiro
Primary Examiner(s)
CHAPMAN JR, JOHN E

Application Number

US07/548,705
Time in Patent Office

746 Days
Field of Search

73/505, 73/497, 73/431, 73/510
US Class Current

73/504.16
CPC Class Codes

G01C 19/5607 using vibrating tuning fork...

G01P 1/006 used for thermal compensation

Angular velocity sensor and a sensor apparatus incorporating the same

First Claim

1 Assignment

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Abstract

36 Citations

12 Claims

Specification

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Angular velocity sensor and a sensor apparatus incorporating the same

First Claim

1 Assignment

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Abstract

36 Citations

12 Claims

Specification

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Solutions

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