Device with a magnetic position encoder

US 6,731,108 B2
Filed: 03/20/2002
Issued: 05/04/2004
Est. Priority Date: 03/23/2001
Status: Active Grant

First Claim

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1. A magnetic position encoder comprising:

a magnetic field source producing a magnetic field rotationally symmetrical relative to an axis of symmetry;

a magnetic field sensor positioned movably relative to the magnetic field source and producing first and second signals representative of a first and second components of the magnetic field respectively, the first and second components being orthogonal to each other and lying in a plane that is orthogonal to the axis of symmetry of the magnetic field; and

an electronic signal processing circuit connected to the magnetic field sensor to receive the first and second signals and processing the signals to produce a position signal representative of the relative position between the magnetic field source and the magnetic field sensor, the processing circuit providing the position signal as an output signal that is proportional to a division of the first signal by the second signal.

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Abstract

A magnetic position encoder comprises a magnetic field source and a magnetic field sensor which are movable relative to each other along a given path. The magnetic field sensor measures two components of the magnetic field produced by the magnetic field source. From the measured components a position signal is then derived which represents the relative position of the magnetic field sensor and magnetic field source. Embodiments of the position encoder in accordance with the invention are characterised in that the determination of the position signal includes a division of the two measured components of the magnetic field. These embodiments in accordance with the invention have the advantage that the position signal is a linear function of the position.

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18 Claims

1. A magnetic position encoder comprising:
- a magnetic field source producing a magnetic field rotationally symmetrical relative to an axis of symmetry;
  
  a magnetic field sensor positioned movably relative to the magnetic field source and producing first and second signals representative of a first and second components of the magnetic field respectively, the first and second components being orthogonal to each other and lying in a plane that is orthogonal to the axis of symmetry of the magnetic field; and
  
  an electronic signal processing circuit connected to the magnetic field sensor to receive the first and second signals and processing the signals to produce a position signal representative of the relative position between the magnetic field source and the magnetic field sensor, the processing circuit providing the position signal as an output signal that is proportional to a division of the first signal by the second signal.
- View Dependent Claims (2, 3, 4)
- - 2. A magnetic position encoder according to claim 1 wherein the magnetic field sensor includes a first Hall element sensitive to the first component of the magnetic field and producing the first signal and a second Hall element sensitive to the second component of the magnetic field and producing the second signal, and wherein the electronic signal processing circuit provides a constant Hall voltage to the first Hall element and provides a current through the second Hall element that is proportional to a current flowing through the first Hall element and provides a Hall voltage of the second Hall element as an output voltage and the position signal.
  - 3. A magnetic position encoder according to claim 1, further comprising a ferromagnetic yoke for concentrating the magnetic field in the plane orthogonal to the axis of symmetry of the magnetic field.
  - 4. A magnetic position encoder according to claim 2, further comprising a ferromagnetic yoke for concentrating the magnetic field in the plane orthogonal to the axis of symmetry of the magnetic field.

5. A magnetic position encoder comprising:
- a magnetic field source producing a magnetic field which is rotationally symmetric in relation an axis of symmetry;
  
  first and second magnetic field sensors, each sensor measuring a first and a second component of the magnetic field and producing first and second signals representative of the first and second components respectively, the first and second components being oriented orthogonal to each other and lying in a plane that is orthogonal to the axis of symmetry of the magnetic field, the first and second magnetic field sensors being separated by a fixed distant and being jointly movable relative to the magnetic field source; and
  
  an electronic circuit connected to the first and second magnetic field sensors receiving the signals from the first and second magnetic field sensors and processing the signals to produce at least one position signal representative of the relative position between the magnetic field source and one of the magnetic field sensors, the circuit providing the position signal as an output signal that is derived from a division of the first signal produced by the first magnetic field sensor by the second signal produced by the first magnetic field sensor and a division of the first signal produced by the second magnetic field sensor by the second signal produced by the second magnetic field sensor.
- View Dependent Claims (6, 7, 8)
- - 6. A magnetic position encoder according to claim 5 wherein each of the first and second magnetic field sensors includes a first Hall element sensitive to the first component of the magnetic field and producing the first signals and a second Hall element sensitive to the second component of the magnetic field and producing the second signals, and wherein the electronic circuit provides to each of the first and second magnetic field sensors a constant Hall voltage to the first Hall element and a current through the second Hall element that is proportional to a current flowing through the first Hall element, and provides a Hall voltage of the second Hall element as the position signal representative of the relative position between the magnetic field source and the magnetic field sensor.
  - 7. A magnetic position encoder according to claim 5, further comprising a ferromagnetic yoke for concentrating the magnetic field in the plane orthogonal to the axis of symmetry of the magnetic field.
  - 8. A magnetic position encoder according to claim 6, further comprising a ferromagnetic yoke for concentrating the magnetic field in the plane orthogonal to the axis of symmetry of the magnetic field.

9. A magnetic position encoder for use with a magnetic field source, the magnetic field encoder comprising:
- a magnetic field sensor movably positionable relative to a magnetic field source producing a magnetic field rotationally symmetrical relative to an axis of symmetry, the magnetic field sensor producing first and second signals representative of first and second components of the magnetic field respectively when the magnetic field sensor is positioned relative to the magnetic field source, the first and second components being orthogonal to each other and lying in a plane that is orthogonal to the axis of symmetry of the magnetic field; and
  
  an electronic signal processing circuit connected to the magnetic field sensor to receive the first and second signals and processing the signals to produce a position signal representative of the relative position between the magnetic field source and the magnetic field sensor, the processing circuit providing the position signal as an output signal that is proportional to a division of the first signal by the second signal.
- View Dependent Claims (10, 11, 12, 13)
- - 10. A magnetic position encoder according to claim 9 wherein the magnetic field sensor includes a first Hall element sensitive to the first component of the magnetic field and producing the first signal and a second Hall element sensitive to the second component of the magnetic field and producing the second signal, and wherein the electronic signal processing circuit provides a constant Hall voltage to the first Hall element and provides a current through the second Hall element that is proportional to a current flowing through the first Hall element and provides a Hall voltage of the second Hall element as an output voltage and the position signal.
  - 11. A magnetic position encoder according to claim 9, further comprising a ferromagnetic yoke for concentrating the magnetic field in the plane orthogonal to the axis of symmetry of the magnetic field.
  - 12. A magnetic position encoder according to claim 10, further comprising a ferromagnetic yoke for concentrating the magnetic field in the plane orthogonal to the axis of symmetry of the magnetic field.
  - 13. A magnetic position encoder according to claim 10, wherein the electronic signal processing circuit the first Hall element connected in parallel with the second Hall element.

14. A magnetic position encoder for use with a magnetic field source, the magnetic position encoder comprising:
- first and second magnetic field sensors separated by a fixed distant and jointly positionable for movement relative to a magnetic field source producing a magnetic field rotationally symmetrical relative to an axis of symmetry, each sensor for measuring a first and a second component of the magnetic field and producing first and second signals representative of the first and second components respectively when the first and second magnetic field sensors are jointly positioned relative to the magnetic field source, the first and second components being oriented orthogonal to each other and lying in a plane that is orthogonal to the axis of symmetry of the magnetic field, an electronic circuit connected to the first and second magnetic field sensors receiving the signals from the first and second magnetic field sensors and processing the signals to produce at least one position signal representative of the relative position between the magnetic field source and one of the magnetic field sensors, the circuit providing the position signal as an output signal that is derived from a division of the first signal produced by the first magnetic field sensor by the second signal produced by the first magnetic field sensor and a division of the first signal produced by the second magnetic field sensor by the second signal produced by the second magnetic field sensor.
- View Dependent Claims (15, 16, 17, 18)
- - 15. A magnetic position encoder according to claim 14 wherein each of the first and second magnetic field sensors includes a first Hall element sensitive to the first component of the magnetic field and producing the first signals and a second Hall element sensitive to the second component of the magnetic field and producing the second signals, and wherein the electronic circuit provides to each of the first and second magnetic field sensors a constant Hall voltage to the first Hall element and a current through the second Hall element that is proportional to a current flowing through the first Hall element, and provides a Hall voltage of the second Hall element as the position signal representative of the of the relative position between the magnetic field source and the magnetic field sensor.
  - 16. A magnetic position encoder according to claim 14, further comprising a ferromagnetic yoke for concentrating the magnetic field in the plane orthogonal to the axis of symmetry of the magnetic field.
  - 17. A magnetic position encoder according to claim 15, further comprising a ferromagnetic yoke for concentrating the magnetic field in the plane orthogonal to the axis of symmetry of the magnetic field.
  - 18. A magnetic position encoder according to claim 15 wherein the electronic circuit includes for each of the first and second magnetic field sensors the first Hall element connected in parallel with the second Hall element.

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Current Assignee
Melexis Tessenderlo NV
Original Assignee
Sentron AG (Sensinnovat BVBA)
Inventors
Zalunardo, Ivano, Popovic, Radivoje, Schott, Christian
Primary Examiner(s)
Le, N.
Assistant Examiner(s)
KINDER, DARRELL D

Application Number

US10/103,589
Publication Number

US 20020167306A1
Time in Patent Office

776 Days
Field of Search

324/207.26, 324/207.2, 324/207.21, 324/207.22, 324/207.25, 324/173, 324/174, 324/207.24, 702/150-152, 341/15
US Class Current

324/207.2
CPC Class Codes

G01D 5/145 influenced by the relative ...

Device with a magnetic position encoder

First Claim

3 Assignments

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Abstract

48 Citations

18 Claims

Specification

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Device with a magnetic position encoder

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

48 Citations

18 Claims

Specification

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Solutions

Use Cases

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