IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0129962
(2008-05-30)
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등록번호 |
US-8174256
(2012-05-08)
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발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
Eschweiler & Associates, LLC
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
23 |
초록
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One embodiment relates to a sensor. The sensor includes a first magnet having a first surface and a second magnet having a second surface. A differential sensing element extends alongside the first and second surfaces. The differential sensing element includes a first sensing element and a second se
One embodiment relates to a sensor. The sensor includes a first magnet having a first surface and a second magnet having a second surface. A differential sensing element extends alongside the first and second surfaces. The differential sensing element includes a first sensing element and a second sensing element. In addition, a layer of ferromagnetic or paramagnetic material runs between the first and second magnets and spaces the first and second magnets from one another. Other apparatuses and methods are also set forth.
대표청구항
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1. A magnetic field sensor, comprising: a first magnet comprising a first surface;a second magnet comprising a second surface, wherein the first and second surfaces are oriented in the same direction;a differential sensing element extending alongside the first and second surfaces, where the differen
1. A magnetic field sensor, comprising: a first magnet comprising a first surface;a second magnet comprising a second surface, wherein the first and second surfaces are oriented in the same direction;a differential sensing element extending alongside the first and second surfaces, where the differential sensing element includes: a first sensing element disposed directly over the first surface, and a second sensing element spaced apart from the first sensing element and disposed directly over the second surface; anda layer of ferromagnetic or paramagnetic material running between the first and second magnets and spacing the first and second magnets from one another, wherein the layer of ferromagnetic or paramagnetic material does not have a sensing element disposed directly over a surface thereof, andwherein the first and second surfaces are associated with magnetic poles having a common polarity. 2. The magnetic field sensor of claim 1, where the layer of ferromagnetic or paramagnetic material is adapted to perpendicularly guide magnetic field lines from the first surface through the first sensing element, and is further adapted to perpendicularly guide magnetic field lines from the second surface through the second sensing element. 3. The magnetic field sensor of claim 1, where the first sensing element comprises a first magneto resistive sensor and where the second sensing element comprises a second magneto resistive sensor. 4. The magnetic field sensor of claim 3, where the layer of ferromagnetic or paramagnetic material is adapted to perpendicularly guide magnetic field lines from the first surface through the first magneto resistive sensor, and is further adapted to perpendicularly guide magnetic field lines from the second surface through the second magneto resistive sensor. 5. The magnetic field sensor of claim 3, where the first magneto resistive sensor comprises: a first ferromagnetic layer;a second ferromagnetic layer; anda non-magnetic layer sandwiched between the first and second ferromagnetic layers. 6. The magnetic field sensor of claim 3, where the first magneto resistive sensor comprises a giant magneto resistive (GMR) sensor. 7. A magnetic field sensor, comprising: a first magnet comprising a first surface associated with a magnetic pole of a first polarity;a second magnet comprising a second surface associated with a magnetic pole of the first polarity, wherein the first and second surfaces are oriented in the same direction, and wherein the first and second surfaces are associated with magnetic poles having a common polarity;a differential sensing element comprising: a first magnetic field sensing element disposed directly over the first surface, and a second magnetic field sensing element disposed over the second surface; anda field accumulator running between the first and second magnets and spacing the first and second magnets from one another, and adapted to perpendicularly guide magnetic field lines from the first and second surfaces through the first and second sensing elements, wherein the field accumulator does not have a magnetic field sensing element disposed directly over a surface thereof. 8. The magnetic field sensor of claim 7, where the first sensing element comprises a first giant magneto resistive sensor and where the second sensing element comprises a second giant magneto resistive sensor. 9. The magnetic field sensor of claim 8, where the first giant magneto resistive sensor comprises: a first ferromagnetic layer;a second ferromagnetic layer; anda non-ferromagnetic layer sandwiched between the first and second ferromagnetic layers. 10. The magnetic field sensor of claim 8, where the first magneto resistive sensor comprises a giant magneto resistive (GMR) sensor. 11. The magnetic field sensor of claim 8: where the magnetic poles of the first and second magnets are substantially aligned on a y-axis; andwhere the first and second magneto resistive sensors are substantially aligned on a z-axis. 12. The magnetic field sensor of claim 8, where the first and second magnets have a polyhedral shape. 13. The magnetic field sensor of claim 8, where the first and second magnets include curved surfaces or edges. 14. A method of making a magnetic field sensor, comprising: providing a layer of paramagnetic or ferromagnetic material;adhering first and second magnets to opposing sides of the layer of paramagnetic or ferromagnetic material, wherein during adhesion of the first and second magnets to the opposing side of the layer, the first and second magnets are arranged so the first and second surfaces are oriented in the same direction and are associated with magnetic poles having a common polarity;adhering a first magnetic field sensor element directly over a first surface of the first magnet and a second magnetic field sensor element directly over a second surface of the second magnet, wherein a magnetic field sensor is not directly over a surface of the layer of paramagnetic or ferromagnetic material. 15. The method of claim 14, where the first magnetic field sensor element comprises a first magneto resistive sensor and where the second magnetic field sensor element comprises a second magneto resistive sensor. 16. The magnetic field sensor of claim 1, further comprising analysis circuitry configured to interface with the differential sensing element, and configured to calculate a difference between a signal obtained from the first sensing element and a signal obtained from the second sensing element. 17. The magnetic field sensor of claim 16, wherein the analysis circuitry is further configured to determine information about an object being sensed based on the calculated difference. 18. The magnetic field sensor of claim 7, further comprising analysis circuitry configured to interface with the differential sensing element, and configured to calculate a difference between a signal obtained from the first sensing element and a signal obtained from the second sensing element. 19. The magnetic field sensor of claim 18, wherein the analysis circuitry is further configured to determine information about an object being sensed based on the calculated difference.
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