Position and torque sensor

US 7,339,370 B2
Filed: 12/09/2005
Issued: 03/04/2008
Est. Priority Date: 12/09/2005
Status: Active Grant

First Claim

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1. A sensor comprising:

a first array of M magnetic pole pairs, where M is a positive number;

a second array of N magnetic pole pairs, arranged substantially in parallel to and mechanically coupled to the first array, where N is a positive number different than M, to form a first magnetic field between the first and second arrays that changes orientation in respect to position;

a first field sensor positioned adjacent and between the first array and the second array; and

a third array of N magnetic pole pairs and a second field sensor, wherein the third array is located adjacent to the second array to form a second magnetic field in between the second and third arrays that changes orientation with respect to a displacement between the second and third arrays and wherein the second field sensor is located adjacent and between the second array and the third array.

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Abstract

A sensor having a first array of N magnetic pole pairs, where N is a positive number, and a second array of M magnetic pole pairs, arranged substantially in parallel to the first array, where M is a positive number different from N, such as N−1 or N+1. A first magnetic pole in the second array is aligned with a first magnetic pole in the first array. The remaining magnetic poles in the second array are arranged such that each one of them is positioned with respect to at least one pole in the first array to form a magnetic field with an angular orientation with respect to the two poles. This arrangement of magnetic pole pairs can be used to measure absolute position. A third array of M magnetic pole pairs may be arranged substantially in parallel with the second array. The second and third arrays of magnetic pole pairs may be used to measure relative position between the two arrays.

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13 Claims

1. A sensor comprising:
- a first array of M magnetic pole pairs, where M is a positive number;
  
  a second array of N magnetic pole pairs, arranged substantially in parallel to and mechanically coupled to the first array, where N is a positive number different than M, to form a first magnetic field between the first and second arrays that changes orientation in respect to position;
  
  a first field sensor positioned adjacent and between the first array and the second array; and
  
  a third array of N magnetic pole pairs and a second field sensor, wherein the third array is located adjacent to the second array to form a second magnetic field in between the second and third arrays that changes orientation with respect to a displacement between the second and third arrays and wherein the second field sensor is located adjacent and between the second array and the third array.

2. A sensor comprising:
- a first array of N magnetic pole pairs, where N is a positive number greater than one;
  
  a second array of N magnetic pole pairs, the second array positioned to form a magnetic field between the first and second arrays that changes orientation in respect to a displacement between the first and second arrays;
  
  a field sensor positioned adjacent and between the first array and the second array, and configured to measure the magnetic field between the first array and the second array; and
  
  an element configured to average output of the field sensor over a distance;
  
  wherein the field sensor is a four-element sin/cos AMR sensor.

3. A sensor comprising:
- a first array of M magnetic pole pairs, where M is a positive number;
  
  a second array of N magnetic pole pairs arranged substantially in parallel to and mechanically coupled to the first array to form a magnetic field between the first and second arrays that changes orientation in respect to position, where N is a positive number different than M;
  
  a third array of N magnetic poles pairs arranged substantially in parallel with the second array;
  
  a first field sensor positioned adjacent and between the first array and the second array; and
  
  a second field sensor positioned adjacent and between the second and third array.
- View Dependent Claims (4, 5, 6)
- - 4. The sensor as claimed in claim 3, wherein an angular orientation of the magnetic field formed between the first array and the second array has a unique angular orientation at any point between the first array and the second array.
  - 5. The sensor as claimed in claim 3, wherein a change in an angular orientation of a magnetic field formed between the second array and the third array relates to a displacement between the second and third array.
  - 6. The sensor as claimed in claim 3, wherein the first and second field sensors are AMR sensors.

7. A sensor comprising:
- a first array of M magnetic pole pairs connected to a first rotational platform, where M is a positive number;
  
  a second array of N magnetic pole pairs connected to the first rotational platform and arranged substantially in parallel to the first array to form a magnetic field between the first and second arrays that changes orientation in respect to a position of the rotational platform where N is a positive number different than M;
  
  a third array of N magnetic pole pairs connected to a second rotational platform, wherein the third array is located adjacent to and substantially in parallel with the second array;
  
  a first field sensor positioned adjacent and between the first array and the second array; and
  
  a second field sensor positioned adjacent and between the second and third array.
- View Dependent Claims (8, 9, 10, 11, 12)
- - 8. The sensor as claimed in claim 7, wherein an angular orientation of the magnetic field between first array and the second array has an unique angular orientation that indicates a rotational position of the first rotational platform.
  - 9. The sensor as claimed in claim 7, wherein a change in an orientation of a magnetic field formed with respect to the second and third arrays relates to a difference in angular displacement between the first and second rotational platforms.
  - 10. The sensor as claimed in claim 7, wherein the first rotational platform is an input shaft in power steering system.
  - 11. The sensor as claimed in claim 7, wherein the second rotational platform is an output shaft in power steering system.
  - 12. The sensor as claimed in claim 7, wherein M=N+1 or N−
    - 1.

13. A method of sensing changes in a magnetic field, the method comprising:
- providing a first array of M magnetic pole pairs, where M is a positive number;
  
  arranging a second array of N magnetic pole pairs, substantially in parallel to and to move in concert with the first array, where N is a positive number different than M;
  
  arranging a first field sensor between the first and second arrays;
  
  sensing changes in orientation of a magnetic field between the first and second arrays as the first and second arrays and the first field sensor more relative to one another; and
  
  providing a third array of N magnetic pole pairs substantially in parallel to and to move independently of the first and second arrays;
  
  arranging a second field sensor between the second and third arrays; and
  
  sensing an angular orientation of a magnetic field formed between the second and third arrays.

Specification

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Current Assignee
Bourns Incorporated
Original Assignee
Bourns Incorporated
Inventors
Reneau, Daniel Russell, Reimer, Lawrence B.
Primary Examiner(s)
LEDYNH, BOT L

Application Number

US11/299,156
Publication Number

US 20070132447A1
Time in Patent Office

816 Days
Field of Search

32420724-20725, 324/207.21, 324173-174, 735/143.1, 735/143.9
US Class Current

324/207.25
CPC Class Codes

G01D 5/2452 incorporating two or more t...

G01L 3/104 involving permanent magnets

Position and torque sensor

First Claim

2 Assignments

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Abstract

46 Citations

13 Claims

Specification

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Position and torque sensor

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

46 Citations

13 Claims

Specification

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Solutions

Use Cases

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