Claims
- 1. A magnetic field assembly for use in a position sensor device of the type which includes a magnetic field sensor and having a stroke direction, the field assembly comprising
first and second magnets positioned on a surface of a magnetic plate and separated from one another by a separation distance, wherein the first magnet has a magnetic axis substantially transverse to the surface of the magnetic plate, and the first magnet has a polarity opposite a polarity of the second magnet; and further wherein cross sectional thicknesses of the first and second magnets are selectively varied along the stroke direction, and the separation distance is selected, so that a predetermined flux density versus stroke characteristic can be provided for the position sensor.
- 2. The magnetic field assembly of claim 1, wherein the thickness of each of the first and second magnets is varied in a linear fashion so that a planar surface is provided for facing the magnetic field sensor, and which is angled at an acute angle with respect to a side transverse to the surface of the magnetic plate.
- 3. The magnetic field assembly of claim 2, wherein the planar surfaces are angled so that the thicknesses of the first and second magnets is at a maximum at opposite ends of the magnetic field assembly, and at a minimum toward the center of the magnetic field assembly.
- 4. The magnetic field assembly of claim 3, wherein the magnetic field assembly is positionable for movement relative to the magnetic field sensor at a gap length distance, and further wherein the separation distance is selected to be greater than the gap length distance.
- 5. The magnetic field assembly of claim 4, wherein the acute angle is selected to be about 60 degrees.
- 6. The magnetic field assembly of claim 5, wherein the separation distance is selected to be greater than five times the gap length distance.
- 7. The magnetic field assembly of claim 1, wherein the first and second magnets have sides which are transverse to the surface of the magnetic plate and substantially parallel to the stroke direction of the position sensor.
- 8. The magnetic field assembly of claim 1, wherein the position sensor has a rotary stroke, and the first and second magnets have sides which are transverse to the surface of the magnetic plate and arc-shaped along the rotary stroke.
- 9. The magnetic field assembly of claim 8, wherein the first and second magnets have a width dimension which varies along the stroke direction of the position sensor.
- 10. The magnetic field assembly of claim 1, wherein the magnetic field sensor is a Hall-effect sensor.
- 11. A position sensor device having a stroke direction, comprising
a magnetic field sensor; and a magnetic field assembly including first and second magnets positioned on a surface of the magnetic plate and apart from one another by a separation distance; wherein the first magnet has a magnetic axis substantially transverse to the surface of the magnetic plate, and the first magnet has a polarity opposite a polarity of the second magnet, and the magnetic field assembly is positioned for movement relative to the magnetic field sensor at a gap length distance; and further wherein the thickness of the first and second magnets is selected to vary along the direction of the stroke of the position sensor, and the gap length distance and the separation distance are selected, so that a predetermined flux density versus stroke characteristic is provided for the position sensor.
- 12. The position sensor of claim 11, wherein the thickness of each of the first and second magnets is varied in a linear fashion so that a planar surface is provided which faces the magnetic field sensor, and which is angled at an acute angle with respect to a side transverse to the surface of the magnetic plate.
- 13. The position sensor of claim 12, wherein the planar surfaces are angled so that the thicknesses of the first and second magnets are at a maximum at opposite ends of the magnetic field assembly, and at a minimum toward the center of the magnetic field assembly.
- 14. The position sensor of claim 13, wherein the separation distance is selected to be greater than the gap length distance.
- 15. The magnetic field assembly of claim 14, wherein the acute angle is selected to be about 60 degrees.
- 16. The position sensor of claim 15, wherein the separation distance is selected to be greater than five times the gap length distance.
- 17. The position sensor of claim 11, wherein the first and second magnets have sides which are transverse to the surface of the magnetic plate and substantially parallel to the stroke direction of the position sensor.
- 18. The position sensor of claim 11, wherein the position sensor has a rotary stroke, and the first and second magnets have sides which are transverse to the surface of the magnetic plate and arc-shaped along the rotary stroke.
- 19. The position sensor of claim 18, wherein the first and second magnets have a width dimension which varies along the stroke direction of the position sensor.
- 20. The position sensor of claim 11, wherein the magnetic field sensor is a Hall-sensor.
- 21. A method for configuring a magnetic field assembly for use in a position sensor device of the type which includes a magnetic field sensor and a stroke direction, the method comprising the steps of
positioning first and second magnets on a surface of a magnetic plate to be separated from one another by a separation distance, wherein the first magnet has a magnetic axis substantially transverse to the surface of the magnetic plate, and the first magnet has a polarity opposite a polarity of the second magnet; and selectively varying the thicknesses of the first and second magnets along the stroke direction and selecting the separation distance so that a predetermined flux density versus stroke characteristic can be provided for the position sensor.
- 22. The method of claim 21, wherein the selectively varying step includes the step of varying the thickness of each of the first and second magnets in a linear fashion so that a planar surface is provided which faces the magnetic field sensor, and which is angled at an acute angle with respect to a side transverse to the surface of the magnetic plate.
- 23. The method of claim 22, wherein the selectively varying step further includes the step of angling the planar surfaces so that the thicknesses of the first and second magnets is at a maximum at opposite ends of the magnetic field assembly, and at a minimum toward the center of the magnetic field assembly.
- 24. The method of claim 23, wherein the magnetic field assembly is positionable for movement relative to the magnetic field sensor at a gap length distance, and further wherein the selectively varying step includes the step of setting the separation distance to be greater than the gap length distance.
- 25. The method of claim 24, wherein in the angling step the acute angle is selected to be about 60 degrees.
- 26. The method of claim 25, wherein in the selectively varying step the separation distance is selected to be greater than five times the gap length distance.
- 27. The method of claim 21 wherein the providing step includes the step of configuring the first and second magnets to have sides which are transverse to the surface of the magnetic plate and substantially parallel to the stroke direction of the position sensor.
- 28. The method of claim 21, wherein the position sensor has a rotary stroke, and the providing step includes the step of configuring the first and second magnets to have sides which are transverse to the surface of the magnetic plate and arc-shaped along the rotary stroke.
- 29. The method of claim 28, wherein the providing step includes the step of configuring the first and second magnets to have a width dimension, which varies along the stroke direction of the position sensor.
- 30. A magnetic field assembly for use in a position sensor device of the type which includes a magnetic field sensor and having a stroke direction, the field assembly comprising
first and second magnets positioned on a surface of a magnetic return path having a cylindrical cross section and separated from one another by a separation distance, wherein the first magnet has a magnetic axis substantially transverse to the surface of the magnetic return path, and the first magnet has a polarity opposite a polarity of the second magnet; and further wherein cross sectional thicknesses of the first and second magnets are selectively varied along the stroke direction, and the separation distance is selected, so that a predetermined flux density versus stroke characteristic can be provided for the position sensor.
- 31. The magnetic field assembly of claim 1, wherein the first and second magnets are ring magnets, and the magnetic return path is a magnetic ring.
- 32. The magnetic field assembly of claim 30, wherein the cross sectional thicknesses of each of the first and second ring magnets is varied in a linear fashion so that an angled surface is provided for facing the magnetic field sensor, and which is angled at an acute angle with respect to a side transverse to the surface of the magnetic ring.
- 33. The magnetic field assembly of claim 31, wherein the angled surfaces are angled so that the cross sectional thicknesses of the first and second ring magnets is at a maximum at opposite ends of the magnetic field assembly, and at a minimum toward the center of the magnetic field assembly.
- 34. The magnetic field assembly of claim 32, wherein the magnetic field assembly is positionable for movement relative to the magnetic field sensor at a gap length distance, and further wherein the separation distance is selected to be greater than the gap length distance.
- 35. The magnetic field assembly of claim 33, wherein the acute angle is selected to be about 60 degrees.
- 36. The magnetic field assembly of claim 34, wherein the separation distance is selected to be greater than five times the gap length distance.
- 37. The magnetic field assembly of claim 30, wherein the first and second ring magnets have sides which are transverse to the surface of the magnetic return path and substantially parallel to the stroke direction of the position sensor.
- 38. The magnetic field assembly of claim 30, wherein the magnetic field sensor is a Hall-effect sensor.
RELATED APPLICATIONS
[0001] The present application claims priority under 35 U.S.C. §119(e) from provisional application No. 60/447,798, filed Feb. 14, 2003.
Provisional Applications (1)
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Number |
Date |
Country |
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60447798 |
Feb 2003 |
US |