Magnetoresistive proximity sensor
First Claim
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1. Apparatus for detecting the position of a ferromagnetic object, comprising:
- a magnetic field source having an end and an axis, said magnetic field source producing a radial magnetic field component in a direction perpendicular to said axis, said magnetic field component having an effective center from which said radial magnetic field component emanates, said effective center having a location;
a magnetoresistive transducer lying in a plane perpendicular to said axis and interposed between said end of said magnetic field source and said ferromagnetic object, said position of said ferromagnetic object determining said location of said effective center of said radial magnetic field component and said magnetoresistive transducer being responsive to said location of said effective center, said magnetoresistive transducer comprising a first bridge leg, a second bridge leg, and additional bridge components, said first and second bridge legs each having at least one magnetoresistive strip electrically connected to said additional bridge components to form an electrical bridge circuit, said radial magnetic field having an angle of intersection with said at least one magnetoresistive strip and said at least one magnetoresistive strip being curved to provide a predetermined value for said angle of intersection with segments of said at least one magnetoresistive strips for said balanced bridge condition, with said first and second bridge legs arranged within said transducer to provide a balanced bridge condition when said first and second bridge legs are symmetrically positioned relative to said effective center, with said bridge circuit having an output representative of said location of said effective center of said radial magnetic field component.
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Abstract
A proximity sensor which has planar magnetoresistive elements lying in the plane of a radial magnetic field. The magnetoresistive elements arranged in a bridge configuration and are magnetically saturated by the radial magnetic field. The proximity sensor detects the approach of a ferromagnetic object by detecting movement of the effective center of the radial magnetic field.
66 Citations
10 Claims
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1. Apparatus for detecting the position of a ferromagnetic object, comprising:
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a magnetic field source having an end and an axis, said magnetic field source producing a radial magnetic field component in a direction perpendicular to said axis, said magnetic field component having an effective center from which said radial magnetic field component emanates, said effective center having a location; a magnetoresistive transducer lying in a plane perpendicular to said axis and interposed between said end of said magnetic field source and said ferromagnetic object, said position of said ferromagnetic object determining said location of said effective center of said radial magnetic field component and said magnetoresistive transducer being responsive to said location of said effective center, said magnetoresistive transducer comprising a first bridge leg, a second bridge leg, and additional bridge components, said first and second bridge legs each having at least one magnetoresistive strip electrically connected to said additional bridge components to form an electrical bridge circuit, said radial magnetic field having an angle of intersection with said at least one magnetoresistive strip and said at least one magnetoresistive strip being curved to provide a predetermined value for said angle of intersection with segments of said at least one magnetoresistive strips for said balanced bridge condition, with said first and second bridge legs arranged within said transducer to provide a balanced bridge condition when said first and second bridge legs are symmetrically positioned relative to said effective center, with said bridge circuit having an output representative of said location of said effective center of said radial magnetic field component. - View Dependent Claims (2, 3, 4, 5, 6)
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7. Apparatus for detecting the position of a ferromagnetic object, comprising:
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a magnetic field source having an end and an axis, said magnetic field source producing a radial magnetic field component in a direction perpendicular to said axis, said magnetic field component having an effective center from which said radial magnetic field component emanates, said effective center having a location; a magnetoresistive transducer lying in said radial magnetic field component, said magnetoresistive transducer including a first element having a first resistance and carrying a first current in a first direction and a second element having a second resistance and carrying a second current in a second direction, each of said elements substantially saturated by said radial magnetic field, each of said elements having a direction of magnetization aligned with said radial magnetic field, with said direction of magnetization and said direction of said first current forming a first angle and said direction of magnetization and said direction of said second current forming a second angle, with said position of said ferromagnetic object causing changes in said first angle and said second angle;
said first and second elements each having a resistance wherein the resistance R of either said element can be Ro, determined by the relationship
space="preserve" listing-type="equation">R = R.sub.o + Δ
Rcos.sup.2 θwhere θ
is the angle between a magnetization vector in said magnetoresistive element due to said radial magnetic field and a direction of a current flow in said magnetoresistive element;Δ
R is the amount of resistance change as said magnetization vector is rotated from being parallel to said element to being perpendicular to said element;Ro is the resistance of said magnetoresistive element when θ
is 90 degrees; andsaid first and second magnetoresistive elements electrically connected to additional bridge components to form a bridge circuit, said bridge circuit having an output related to said location of said effective center and to a change in said angle θ
for said first element and a change in said angle θ
for said second element. - View Dependent Claims (8, 9, 10)
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Specification