Magnetic position sensor having a stepped magnet interface
First Claim
1. A magnetic position sensor, comprising:
- a magnet;
a pair of pole piece segments spaced apart to define an air gap, each of said pole piece segments forming a stepped interface with said magnet to provide a magnetic field within said air gap having a varying magnetic flux density; and
a magnetic flux sensor positioned within said magnetic field and operable to sense a magnitude of said varying magnetic flux density along said air gap and to provide an output signal representative of a position of said magnetic flux sensor relative to said magnetic field.
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Abstract
A non-contacting magnetic position sensor that produces a magnetic field having improved linear characteristics over an extended sensing range. The magnetic position sensor includes a pair of magnets, a pair of pole pieces extending between the magnets and spaced apart to define an air gap, and a magnetic flux sensor operable to sense varying magnitudes of magnetic flux density along the length of the air gap. The pole piece segments form a stepped interface with each of the magnets and cooperate with the magnets to provide a magnetic field having a magnetic flux density that varies in a substantially linear manner along substantially the entire length of the air gap. The magnetic flux sensor is positioned within the magnetic field and is operable to sense a magnitude of the varying magnetic flux density along the air gap and to provide an output signal representative of a position of the magnetic flux sensor relative to the magnetic field.
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Citations
33 Claims
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1. A magnetic position sensor, comprising:
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a magnet;
a pair of pole piece segments spaced apart to define an air gap, each of said pole piece segments forming a stepped interface with said magnet to provide a magnetic field within said air gap having a varying magnetic flux density; and
a magnetic flux sensor positioned within said magnetic field and operable to sense a magnitude of said varying magnetic flux density along said air gap and to provide an output signal representative of a position of said magnetic flux sensor relative to said magnetic field. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 31)
wherein said corresponding portion of said magnet comprises a corner portion of said magnet.
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4. The magnetic position sensor of claim 2, wherein each of said pole piece segments has a thickness;
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wherein said notched area has a depth approximately equal to one-half of said thickness.
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5. The magnetic position sensor of claim 1, wherein said magnet has a first pole surface, a second pole surface, and side surfaces extending between said first and second pole surfaces;
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wherein each of said pole piece segments includes a first portion positioned adjacent a respective one of said first and second pole surfaces and a second portion positioned adjacent one of said side surfaces to thereby form said stepped interface with said magnet.
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6. The magnetic position sensor of claim 5, wherein said first and second portions of said pole piece segments cooperate to define a rectangular-shaped cut out sized and shaped to receive a corresponding corner portion of said magnet therein to thereby form said stepped interface with said magnet.
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7. The magnetic position sensor of claim 5, wherein said magnet has a substantially rectangular configuration.
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8. The magnetic position sensor of claim 5, wherein said first portion of said pole piece segment defines a recessed surface and wherein said second portion of said pole piece segment defines a shoulder surface;
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wherein said recessed surface is positioned in abutment against said respective one of said first and second pole surfaces; and
wherein said shoulder surface is positioned in abutment against said one of said side surfaces.
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9. The magnetic position sensor of claim 1, wherein said pole piece segments are formed of a material having a magnetic reluctance different from that of cold rolled steel.
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10. The magnetic position sensor of claim 1, wherein said air gap extends along a first axis, said magnet being polarized along a second axis transverse to said first axis.
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11. The magnetic position sensor of claim 10, wherein said first and second axes are arranged in a substantially perpendicular relationship relative to one another.
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12. The magnetic position sensor of claim 10, wherein said first axis is substantially linear.
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13. The magnetic position sensor of claim 1, wherein said magnetic flux sensor is a Hall-effect type sensor.
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31. The magnetic position sensor of claim 1, wherein said magnetic flux density varies in a substantially linear manner along an end portion of said air gap adjacent said magnet.
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14. A magnetic position sensor, comprising:
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a first magnet;
a second magnet;
a first pole piece extending between said first and second magnets;
a second pole piece extending between said first and second magnets and spaced from said first pole piece to define an air gap;
said first and second pole pieces forming a stepped interface with each of said first and second magnets to form a magnetic circuit, said magnetic circuit providing a magnetic field within said air gap having a varying magnetic flux density; and
a magnetic flux sensor positioned within said magnetic field and operable to sense a magnitude of said varying magnetic flux density along said air gap and to provide an output signal representative of a position of said magnetic flux sensor relative to said magnetic field. - View Dependent Claims (15, 16, 17, 18, 32)
wherein each of said first and second pole pieces includes a pair of notched areas cooperating with corresponding ones of said first and second magnets to form said stepped interface, each of said notched areas including a first portion positioned adjacent one of said first and second pole surfaces and a second portion positioned adjacent one of said side surfaces to form said stepped interface.
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18. The magnetic position sensor of claim 17, wherein each of said notched areas comprises a rectangular-shaped cut out sized and shaped to receive a corresponding corner portion of a respective one of said magnets therein to form said stepped interface.
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32. The magnetic position sensor of claim 14, wherein said magnetic flux density varies in a substantially linear manner along end portions of said air gap adjacent said first and second magnets.
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19. A magnetic position sensor, comprising:
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a magnet having a first pole surface, a second pole surface, and side surfaces extending between said first and second pole surfaces;
a pair of pole piece segments spaced apart to define an air gap and cooperating with said magnet to provide a magnetic field within said air gap having a varying magnetic flux density, each of said pole piece segments including a first portion positioned adjacent a respective one of said first and second pole surfaces of said magnet and a second portion positioned adjacent one of said side surfaces of said magnet; and
a magnetic flux sensor positioned within said magnetic field and operable to sense a magnitude of said varying magnetic flux density along said air gap and to provide an output signal representative of a position of said magnetic flux sensor relative to said magnetic field. - View Dependent Claims (20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 33)
wherein said recessed surface is positioned in abutment against said respective one of said first and second pole surfaces; and
wherein said shoulder surface is positioned in abutment against said one of said side surfaces.
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23. The magnetic position sensor of claim 22, wherein said recessed surface and said shoulder surface are arranged in a substantially perpendicular relationship relative to one another so as to define a rectangular-shaped cut out.
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24. The magnetic position sensor of claim 19, wherein each of said pole piece segments has an overall thickness;
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wherein said first portion of said pole piece segments has a thickness approximately equal to one-half of said overall thickness.
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25. The magnetic position sensor of claim 19, wherein said first portion of each of said pole piece segments extends substantially entirely along said respective one of said first and second pole surfaces of said magnet.
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26. The magnetic position sensor of claim 19, wherein said pole piece segments are arranged in a substantially parallel relationship relative to one another.
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27. The magnetic position sensor of claim 19, wherein said air gap extends along a first axis, said magnet being polarized along a second axis arranged transverse to said first axis.
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28. The magnetic position sensor of claim 27, wherein said first and second axes are arranged in a substantially perpendicular relationship.
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29. The magnetic position sensor of claim 19, wherein said magnet has a substantially rectangular configuration.
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30. The magnetic position sensor of claim 19, wherein said pole piece segments are formed of a material having a magnetic reluctance different from that of cold rolled steel.
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33. The magnetic position sensor of claim 19, wherein said magnetic flux density varies in a substantially linear manner along an end portion of said air gap adjacent said magnet.
Specification