OFFSET MAGNET ROTARY POSITION SENSOR
First Claim
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1. A rotary position sensing system, comprising:
- a shaft comprising an offset mounting hole;
a magnet having a magnetic field that is magnetized across an axis of said magnet, wherein said magnet is and is mounted to said shaft at said offset mounting hole and oriented to said offset mounting hole;
at least one Hall-effect sensing element located at a fixed distance from said magnet to provide a linear output signal proportional to said magnetic field of said magnet and said angular position of said shaft, thereby providing an angular position measurement of a device mated to said shaft;
a housing for containing said shaft, wherein said housing is formed from a non-metallic material and said shaft is mounted to said housing utilizing a plurality of bearings; and
an Integrated Circuit (IC) chip housing assembly, wherein said housing is operatively connected to a termination or end-cap piece and said magnet is surrounded by said IC chip housing assembly, such that said at least one Hall-effect sensing element is surrounded by a Printed Circuit Board (PCB) and said IC chip housing assembly.
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Abstract
A rotary position sensing system and method are disclosed, including a shaft comprising an offset mounting hole, and a magnet having a magnetic field that is magnetized across an axis of the magnet, wherein the magnet is mounted to the shaft at the offset mounting hole and oriented to the offset mounting hole. One or more Hall-effect sensing elements can also be located a fixed distance from the magnet to provide a linear output signal proportional to the magnetic field of the magnet and the angular position of the shaft, thereby providing an angular position measurement of a device mated to the shaft.
30 Citations
20 Claims
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1. A rotary position sensing system, comprising:
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a shaft comprising an offset mounting hole;
a magnet having a magnetic field that is magnetized across an axis of said magnet, wherein said magnet is and is mounted to said shaft at said offset mounting hole and oriented to said offset mounting hole;
at least one Hall-effect sensing element located at a fixed distance from said magnet to provide a linear output signal proportional to said magnetic field of said magnet and said angular position of said shaft, thereby providing an angular position measurement of a device mated to said shaft;
a housing for containing said shaft, wherein said housing is formed from a non-metallic material and said shaft is mounted to said housing utilizing a plurality of bearings; and
an Integrated Circuit (IC) chip housing assembly, wherein said housing is operatively connected to a termination or end-cap piece and said magnet is surrounded by said IC chip housing assembly, such that said at least one Hall-effect sensing element is surrounded by a Printed Circuit Board (PCB) and said IC chip housing assembly.
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2. (canceled)
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9. A rotary sensing system, comprising:
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a shaft comprising an offset mounting hole;
a magnet having a magnetic field that is magnetized across an axis of said magnet, wherein said magnet is and is mounted to said shaft at said offset mounting hole and oriented to said offset mounting hole; and
at least one Hall-effect sensing element located at a fixed distance from said magnet to provide a linear output signal proportional to said magnetic field of said magnet and said angular position of said shaft, thereby providing an angular position measurement of a device mated to said shaft;
wherein said magnetic field possesses a magnetic field strength approximately equal to zero when said magnet is rotated from said at least one Hall-effect sensing element at a position of said magnet that is furthest from said at least one Hall-effect sensing element; and
wherein as said magnet is rotated and moves closer to said at least one Hall-effect sensing element, a change in said magnetic field strength caused by a rotation of said magnet and a change in said magnetic field strength caused by a closer movement of said magnet to said at least one Hall-effect sensing element results in said linear output signal.
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10. (canceled)
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11. A rotary position sensing system, comprising:
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a shaft comprising an offset mounting hole;
a magnet having a cylindrical shape a magnetic field thereof that is magnetized across an axis of said magnet, wherein said magnet is mounted to said shaft at said offset mounting hole and oriented to said offset mounting hole;
at least one Hall-effect sensing element located at a fixed distance from said magnet;
a housing for containing said shaft, said magnet and said at least one Hall-effect sensing element;
a plurality of bearings for mounting said shaft to said housing, wherein said at least one Hall-effect sensing element provides a linear output signal proportional to said magnetic field of said magnet and said angular position of said shaft, thereby providing an angular position measurement of a device mated to said shaft;
wherein said magnetic field possesses a magnetic field strength approximately equal to zero when said magnet is rotated from said at least one Hall-effect sensing element at a position of said magnet that is furthest from said at least one Hall-effect sensing element; and
wherein as said magnet is rotated and moves closer to said at least one Hall-effect sensing element, a change in said magnetic field strength caused by a rotation of said magnet and a change in said magnetic field strength caused by a closer movement of said magnet to said at least one Hall-effect sensing element results in said linear output signal.
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12. (canceled)
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13. A rotary position sensing method, comprising the steps of:
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configuring a shaft to comprise an offset mounting hole;
providing a magnet possessing a magnetic field that is magnetized across an axis of said magnet;
mounting said magnet to said shaft at said offset mounting hole and oriented offset from said offset mounting hole;
locating at least one Hall-effect sensing element at a fixed distance from said magnet, wherein said at least one Hall-effect sensing element provides a linear output signal that is proportional to said magnetic field of said magnet and said angular position of said shaft, thereby providing an angular position measurement of a device mated to said shaft;
rotating said magnet from said at least one Hall-effect sensing element at a position of said magnet that is furthest from said at least one Hall-effect sensing element, such that said magnetic field possesses a magnetic field strength approximately equal to zero; and
rotating and moving said magnet closer to said at least one Hall-effect sensing element to induce a change in said magnetic field strength to generate said linear output signal. - View Dependent Claims (14, 15, 17, 20)
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16. The method of 13 further comprising the step of configuring said magnet to comprise a cylindrical shape.
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18. (canceled)
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19. (canceled)
Specification