Contactless magnetic linear position sensor

US 9,448,087 B2
Filed: 10/10/2011
Issued: 09/20/2016
Est. Priority Date: 10/10/2011
Status: Active Grant

First Claim

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1. A sensor system for outputting an electrical signal representing an amount of relative movement, comprising:

at least two magnetic field sensors;

at least two magnets, each magnet having a longitudinal axis aligned with a magnetic field direction exhibited by the magnet and each magnet having a face at about a 45 degree first angle relative to the longitudinal axis, wherein the angled faces of the two magnets are positioned proximate to each other such that the two magnets in proximity to each other form a magnetic pair, and such that the two magnets define an second angle therebetween, wherein the second angle is measured relative to the respective longitudinal axes of the two magnets, and wherein the two magnets and the at least two magnetic field sensors are mounted for relative movement therebetween such that the two magnets and the at least two magnetic field sensors do not contact one another; and

a circuit for determining an amount of the relative movement as a function of a difference between the outputs of the at least two magnetic field sensors.

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Abstract

In a position sensor, two field sensors are placed along a line parallel to the movement to be detected. Two magnets are placed at an angle to each other to generate a magnetic field such that their position is a linear or approximately linear function of the difference between the outputs of the sensors.

88 Citations

30 Claims

1. A sensor system for outputting an electrical signal representing an amount of relative movement, comprising:
- at least two magnetic field sensors;
  
  at least two magnets, each magnet having a longitudinal axis aligned with a magnetic field direction exhibited by the magnet and each magnet having a face at about a 45 degree first angle relative to the longitudinal axis, wherein the angled faces of the two magnets are positioned proximate to each other such that the two magnets in proximity to each other form a magnetic pair, and such that the two magnets define an second angle therebetween, wherein the second angle is measured relative to the respective longitudinal axes of the two magnets, and wherein the two magnets and the at least two magnetic field sensors are mounted for relative movement therebetween such that the two magnets and the at least two magnetic field sensors do not contact one another; and
  
  a circuit for determining an amount of the relative movement as a function of a difference between the outputs of the at least two magnetic field sensors.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 28)
- - 2. The sensor system of claim 1, wherein the second angle is about 90 degrees measured relative to the respective longitudinal axes of the two magnets.
  - 3. The sensor system of claim 1, wherein the two magnets are configured to changing the second angle therebetween from less than about 90 degrees to greater than about 90 degrees.
  - 4. The sensor system of claim 1, wherein the function is a linear function.
  - 5. The sensor system of claim 1, wherein the at least two magnetic field sensors are spaced apart and attached to a substrate.
  - 6. The sensor system of claim 5, wherein the substrate is movable or fixed.
  - 7. The sensor system of claim 1, wherein the two magnets in proximity to each other are attached to a movable object.
  - 8. The sensor system of claim 1, wherein the at least two magnetic field sensors are spaced apart and attached to a movable substrate, and wherein the two magnets are attached to a movable object, and wherein both the substrate and the object are movable relative to each other.
  - 9. The sensor system of claim 1, wherein the at least two magnetic field sensors, the two magnets, and the circuit are used in an automotive passenger vehicle.
  - 28. The sensor system of claim 5, wherein the substrate comprises one of a PCB and a steel block.

10. A method for determining an amount of relative movement, comprising the steps of:
- providing at least two magnetic field sensors for attachment to a substrate;
  
  providing at least two magnets, each magnet having a longitudinal axis aligned with a magnetic field direction exhibited by the magnet and each magnet having a face at about a 45 degree first angle relative to the longitudinal axis, for attachment to an object, wherein the angled faces of the two magnets are positioned proximate to each other such that the two magnets in proximity to each other form a magnetic pair, and such that the two magnets define an second angle therebetween, wherein the second angle is measured relative to the respective longitudinal axes of the two magnets, and wherein the two magnets and the at least two magnetic field sensors are mounted for relative movement therebetween such that the two magnets and the at least two magnetic field sensors do not contact one another;
  
  providing a circuit for receiving an output signal from each of the at least two magnetic field sensors for determining the relative movement as a function of a difference between the output signals of the at least two magnetic field sensors.
- View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 29)
- - 11. The method of claim 10, further comprising the step of determining the function using calibration data.
  - 12. The method of claim 10, further comprising the step of outputting a signal representing the current location of one or both of the at least two magnetic field sensors, the two magnets, the object, or the substrate.
  - 13. The method of claim 10, further comprising the step of determining the distance traveled by one or both of the at least two magnetic field sensors, the two magnets, the object, or the substrate.
  - 14. The method of claim 10, wherein the second angle is about 90 degrees measured relative to the respective longitudinal axes of the two magnets.
  - 15. The method of claim 10, wherein the two magnets in proximity to each other are configured to changing the second angle therebetween from less than about 90 degrees to greater than about 90 degrees.
  - 16. The method of claim 10, wherein the function is a linear function.
  - 17. The method of claim 10, wherein the at least two magnetic field sensors are spaced apart on the substrate.
  - 18. The method of claim 10, wherein the substrate is movable or fixed.
  - 19. The method of claim 10, wherein the at least two magnetic field sensors are spaced apart and attached to the movable substrate, and wherein the two magnets are attached to the object, and wherein both the substrate and the object are movable relative to each other.
  - 20. The method of claim 10, wherein the at least two magnetic field sensors, the two magnets, and the circuit are used in an automotive passenger vehicle.
  - 29. The method of claim 10, wherein the substrate comprises one of a PCB and a steel block.

21. A sensor system for outputting an electrical signal representing an amount of relative movement, comprising:
- at least two magnetic field sensors;
  
  at least one single L-shaped magnet for attachment to an object, wherein the L-shaped magnet comprises two longitudinally-extending members forming an angle therebetween, wherein each member exhibits a magnetic field in a direction aligned with the longitudinal axis of the member, wherein the L-shaped magnet and the at least two magnetic field sensors are mounted for relative movement therebetween such that the L-shaped magnet and the at least two magnetic field sensors do not contact one another; and
  
  a circuit for determining an amount of the relative movement as a function of a difference between the outputs of the at least two magnetic field sensors.
- View Dependent Claims (22, 23, 24, 25, 26, 27, 30)
- - 22. The sensor system of claim 21, wherein the function is a linear function.
  - 23. The sensor system of claim 21, wherein the at least two magnetic field sensors are spaced apart and attached to a substrate.
  - 24. The sensor system of claim 23, wherein the substrate is movable or fixed.
  - 25. The sensor system of claim 21, wherein the L-shaped magnet is attached to a movable object.
  - 26. The sensor system of claim 21, wherein the at least two magnetic field sensors are spaced apart and attached to a movable substrate, and wherein the L-shaped magnet is attached to a movable object, and wherein both the substrate and the object are movable relative to each other.
  - 27. The sensor system of claim 21, wherein the at least two magnetic field sensors, the L-shaped magnet, and the circuit are used in an automotive passenger vehicle.
  - 30. The sensor system of claim 23, wherein the substrate comprises one of a PCB and a steel block.

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Current Assignee
Methode Electronics Incorporated
Original Assignee
Methode Electronics Incorporated
Inventors
Rahaman, Azizur, Lee, Seong-Jae
Primary Examiner(s)
Ledynh, Bot

Application Number

US13/269,849
Publication Number

US 20130088218A1
Time in Patent Office

1,807 Days
Field of Search

324/207.24, 324/207.11
US Class Current

1/1
CPC Class Codes

G01D 5/145 influenced by the relative ...

Contactless magnetic linear position sensor

First Claim

2 Assignments

0 Petitions

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Abstract

88 Citations

30 Claims

Specification

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Contactless magnetic linear position sensor

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

88 Citations

30 Claims

Specification

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Solutions

Use Cases

Quick Links