Sensor assembly combining signals with enhanced asymmetry for detecting direction of rotation of an object

US 7,009,384 B2
Filed: 06/03/2003
Issued: 03/07/2006
Est. Priority Date: 02/06/2001
Status: Expired due to Fees

First Claim

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1. A sensor assembly for detecting direction of rotation of an object, comprising:

a magnet having opposite poles and defining a center substantially midway between the poles, the center of the magnet being positioned along a central axis of the sensor assembly;

a target wheel mechanically connected to the object; and

at least two sensing elements placed between the target wheel and the magnet, the magnet and sensing elements being configured so that as the target wheel rotates it causes each sensing element to output respective asymmetric signals relative to the direction of rotation of the object in response to sensing structure on the target wheel, each of said asymmetric signals being differentially combined to generate a combined signal indicative of the direction of rotation of the object, wherein the magnet and the sensing elements are oriented perpendicular to the central axis, and wherein the magnet generates a magnetic field that is oriented at an angle relative to the central axis.

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Abstract

A target wheel sensor assembly includes a target wheel, a magnet, and two or more sensing elements placed therebetween. The magnet and the sensing elements are configured so that as the target wheel rotates each of the sensing elements outputs a respective asymmetric signal relative to the direction of rotation of the target wheel or an object mechanically connected to the wheel. Each of these asymmetric signals is differentially combined with one another to determine the direction of motion of the target wheel, and, if optionally desired, the position of the target wheel.

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17 Claims

1. A sensor assembly for detecting direction of rotation of an object, comprising:
- a magnet having opposite poles and defining a center substantially midway between the poles, the center of the magnet being positioned along a central axis of the sensor assembly;
  
  a target wheel mechanically connected to the object; and
  
  at least two sensing elements placed between the target wheel and the magnet, the magnet and sensing elements being configured so that as the target wheel rotates it causes each sensing element to output respective asymmetric signals relative to the direction of rotation of the object in response to sensing structure on the target wheel, each of said asymmetric signals being differentially combined to generate a combined signal indicative of the direction of rotation of the object, wherein the magnet and the sensing elements are oriented perpendicular to the central axis, and wherein the magnet generates a magnetic field that is oriented at an angle relative to the central axis.
- View Dependent Claims (2)
- - 2. The sensor assembly of claim 1, wherein the angle comprises a range of about twenty degrees to about seventy degrees.

3. A sensor assembly for detecting direction of rotation of an object, comprising:
- a magnet having opposite poles and defining a center substantially midway between the poles, the center of the magnet being positioned alone a central axis of the sensor assembly;
  
  a target wheel mechanically connected to the object; and
  
  at least two sensing elements placed between the target wheel and the magnet, the magnet and sensing elements being configured so that as the target wheel rotates it causes each sensing element to output respective asymmetric signals relative to the direction of rotation of the object in response to sensing structure on the target wheel, each of said asymmetric signals being differentially combined to generate a combined signal indicative of the direction of rotation of the object, wherein the magnet further defines a longitudinal axis and generates a magnetic field that is oriented perpendicular to the longitudinal axis, each of the sensing elements being oriented parallel to the longitudinal axis of the magnet, and wherein the magnet and each of the sensing elements is oriented at an angle relative to the central axis.
- View Dependent Claims (4)
- - 4. The sensor assembly of claim 3, wherein the angle comprises a range from about one degree to about forty degrees.

5. A sensor assembly for detecting direction of rotation of an object, comprising:
- a magnet having opposite poles and defining a center substantially midway between the poles, the center of the magnet being positioned along a central axis of the sensor assembly;
  
  a target wheel mechanically connected to the object;
  
  at least two sensing elements placed between the target wheel and the magnet, the magnet and sensing elements being configured so that as the target wheel rotates it causes each sensing element to output respective asymmetric signals relative to the direction of rotation of the object in response to sensing structure on the target wheel, each of said asymmetric signals being differentially combined to generate a combined signal indicative of the direction of rotation of the object; and
  
  a magnetic piece placed near the magnet, the magnetic piece being configured so that as the target wheel rotates it causes each sensing element to enhance the asymmetry in each output signal relative to the direction of rotation of the object.
- View Dependent Claims (6, 7, 8)
- - 6. The sensor assembly of claim 5, wherein the magnetic piece is placed adjacent to one side of the magnet.
  - 7. The sensor assembly of claim 5, wherein the magnet defines a top, the magnetic piece includes an upper portion and a lateral portion extending therefrom, and wherein the magnetic piece is placed so that the upper portion is adjacent to the top of the magnet and the lateral portion is adjacent to one side of the magnet.
  - 8. The sensor assembly of claim 7, wherein the upper portion of the magnetic piece is tapered.

9. A sensor assembly for detecting direction of rotation of an object, comprising:
- a magnet having opposite poles and defining a center substantially midway between the poles, the center of the magnet being positioned along a central axis of the sensor assembly, wherein the magnet comprises first and second segments for generating a first magnetic field and a second magnetic field;
  
  a target wheel mechanically connected to the object; and
  
  at least two sensing elements placed between the target wheel and the magnet, the magnet and sensing elements being configured so that as the target wheel rotates it causes each sensing element to output respective asymmetric signals relative to the direction of rotation of the object in response to sensing structure on the target wheel, each of said asymmetric signals being differentially combined to generate a combined signal indicative of the direction of rotation of the object.
- View Dependent Claims (10)
- - 10. The sensor assembly of claim 9, wherein the first magnetic field and the second magnetic field have different field strengths.

11. A sensor assembly for detecting direction of rotation of an object, comprising:
- a magnet having opposite poles and defining a center substantially midway between the poles, the center of the magnet being positioned along a central axis of the sensor assembly, wherein the magnet comprises first and second discrete magnets for generating a first magnetic field and a second magnetic field;
  
  a target wheel mechanically connected to the object; and
  
  at least two sensing elements placed between the target wheel and the magnet, the magnet and sensing elements being configured so that as the target wheel rotates it causes each sensing element to output respective asymmetric signals relative to the direction of rotation of the object in response to sensing structure on the target wheel, each of said asymmetric signals being differentially combined to generate a combined signal indicative of the direction of rotation of the object.
- View Dependent Claims (12, 13)
- - 12. The sensor assembly of claim 11, wherein the first magnetic field and the second magnetic field have different field strengths.
  - 13. The sensor assembly of claim 11, wherein the first and second magnetic fields have a mutually orthogonal direction relative to one another.

14. A target wheel sensor assembly for sensing at least direction of rotation of a target wheel, the sensor assembly defining a central axis and comprising:
- a target wheel defining a center, the center of the target wheel being located along the central axis;
  
  a magnet placed near the target wheel, the magnet defining a center intermediate opposite poles of the magnet, the center of the magnet being located along the central axis; and
  
  at least two sensing elements placed between the target wheel and the magnet, each of the sensing elements producing a respective asymmetric output signal relative to the direction of rotation of the target wheel in response to sensing structure on the target wheel as the wheel rotates, each output signal being differentially combined with one another to supply a combined output signal indicative of a direction of rotation of the target wheel and a position of the target wheel, wherein the magnet and each of the sensing elements are oriented perpendicular to the central axis, and wherein the magnet generates a magnetic field that is oriented at an angle with the central axis.

15. A target wheel sensor assembly for sensing at least direction of rotation of a target wheel, the sensor assembly defining a central axis and comprising:
- a target wheel defining a center, the center of the target wheel being located alone the central axis;
  
  a magnet placed near the target wheel, the magnet defining a center intermediate opposite poles of the magnet, the center of the magnet being located along the central axis; and
  
  at least two sensing elements placed between the target wheel and the magnet, each of the sensing elements producing a respective asymmetric output signal relative to the direction of rotation of the target wheel in response to sensing structure on the target wheel as the wheel rotates, each output signal being differentially combined with one another to supply a combined output signal indicative of a direction of rotation of the target wheel and a position of the target wheel, wherein the magnet defines a longitudinal axis and generates a magnetic field that is oriented perpendicular to the longitudinal axis, each of the sensing elements being oriented parallel to the longitudinal axis of the magnet, and wherein the magnet and each of the sensing elements is oriented at an angle with the central axis.

16. A target wheel sensor assembly for sensing at least direction of rotation of a target wheel, the sensor assembly defining a central axis and comprising:
- a target wheel defining a center, the center of the target wheel being located along the central axis;
  
  a magnet placed near the target wheel, the magnet defining a center intermediate opposite poles of the magnet, the center of the magnet being located along the central axis;
  
  at least two sensing elements placed between the target wheel and the magnet, each of the sensing elements producing a respective asymmetric output signal relative to the direction of rotation of the target wheel in response to sensing structure on the target wheel as the wheel rotates, each output signal being differentially combined with one another to supply a combined output signal indicative of a direction of rotation of the target wheel and a position of the target wheel; and
  
  a magnetic piece placed near the magnet, the magnetic piece being configured so that as the target wheel rotates it causes each of the sensing elements to enhance the asymmetry in each output signal relative to the direction of rotation of the target wheel.

17. A target wheel sensor assembly for sensing at least direction of rotation of a target wheel, the sensor assembly defining a central axis and comprising:
- a target wheel defining a center, the center of the target wheel being located along the central axis;
  
  a magnet placed near the target wheel, the magnet defining a center intermediate opposite poles of the magnet, the center of the magnet being located along the central axis, wherein the magnet generates at least a first magnetic field and at least a second magnetic field; and
  
  at least two sensing elements placed between the target wheel and the magnet, each of the sensing elements producing a respective asymmetric output signal relative to the direction of rotation of the target wheel in response to sensing structure on the target wheel as the wheel rotates, each output signal being differentially combined with one another to supply a combined output signal indicative of a direction of rotation of the target wheel and a position of the target wheel.

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Current Assignee
Delphi Technologies, Inc. (BorgWarner Incorporated)
Original Assignee
Delphi Technologies, Inc. (BorgWarner Incorporated)
Inventors
Omekanda, Avoki M., Heremans, Joseph Pierre, Schroeder, Thaddeus, Lequesne, Bruno P. B.
Primary Examiner(s)
PATIDAR, JAY M

Application Number

US10/453,041
Publication Number

US 20030205998A1
Time in Patent Office

1,008 Days
Field of Search

324/207.12, 324/207.2, 324/207.21, 324/207.24, 324/207.25, 324/207.26, 324163-174, 338/32.R, 338/32.H
US Class Current

324/165
CPC Class Codes

G01D 5/147   influenced by the movement ...

G01P 13/04   Indicating positive or nega...

G01P 3/488   delivered by variable reluc...

Sensor assembly combining signals with enhanced asymmetry for detecting direction of rotation of an object

First Claim

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Abstract

49 Citations

17 Claims

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Sensor assembly combining signals with enhanced asymmetry for detecting direction of rotation of an object

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

49 Citations

17 Claims

Specification

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Solutions

Use Cases

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