Magnetic sensor
First Claim
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1. A magnetic sensor comprising:
- a thin-film-like magnetoresistive effect element; and
a coil formed in a plane parallel to a planar film surface of the magnetoresistive effect element, the coil generating magnetic fields applied to the magnetoresistive effect element;
wherein the coil comprises a first conductor forming a spiral in a plan view, and a second conductor forming a spiral in the plan view;
wherein the magnetoresistive effect element is disposed between a spiral center of the first conductor and a spiral center of the second conductor in the plan view; and
wherein the first conductor and the second conductor are connected such that electric currents in substantially the same direction pass through a part of the first conductor at a portion overlapping the magnetoresistive effect element in a plan view and through a part of the second conductor at a portion overlapping the magnetoresistive effect element in the plan view.
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Abstract
A magnetic sensor comprises a thin-film-like magnetic tunnel effect element (magnetoresistive effect element) 11. A coil 21 is disposed in a plane under the magnetic tunnel effect element 11 and parallel to a thin-planar film surface of the element. The coil 21 is a double spiral type coil which includes a first spiral conductor portion 21-1 and a second spiral conductor portion 21-2. The magnetic tunnel effect element 11 is disposed between a spiral center P1 of the first conductor portion 21-1 and a spiral center P2 of the second conductor portion 21-2 in a plan view. The first and second conductor portions 21-1 and 21-2 are connected such that electric currents in the same direction pass through a part of the first conductor portion 21-1 that overlaps the magnetic tunnel effect element 11 in a plan view and through a part of the second conductor portion 21-2 that overlaps the magnetic tunnel effect element 11 in a plan view.
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Citations
10 Claims
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1. A magnetic sensor comprising:
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a thin-film-like magnetoresistive effect element; and
a coil formed in a plane parallel to a planar film surface of the magnetoresistive effect element, the coil generating magnetic fields applied to the magnetoresistive effect element;
wherein the coil comprises a first conductor forming a spiral in a plan view, and a second conductor forming a spiral in the plan view;
wherein the magnetoresistive effect element is disposed between a spiral center of the first conductor and a spiral center of the second conductor in the plan view; and
wherein the first conductor and the second conductor are connected such that electric currents in substantially the same direction pass through a part of the first conductor at a portion overlapping the magnetoresistive effect element in a plan view and through a part of the second conductor at a portion overlapping the magnetoresistive effect element in the plan view. - View Dependent Claims (2, 3, 4, 5, 6)
the part of the first conductor at the portion overlapping the magnetoresistive effect element the plan view and the part of the second conductor at the portion overlapping the magnetoresistive effect element in the plan view are formed rectilinearly parallel to each other. -
3. The magnetic sensor according to claim 2, wherein
widths of the first and second conductors at the portion overlapping the magnetoresistive effect element in the plan view are equal, the widths being different from widths of the first and second conductors at the remaining portions. -
4. The magnetic sensor according to claim 1, wherein the coil generates a magnetic field for confirming whether the magnetoresistive effect element functions normally.
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5. The magnetic sensor according to claim 1, wherein the magnetoresistive effect element is a magnetoresistive effect element including a free layer and a pin layer, and wherein
the coil generates a magnetic field for initializing the direction of magnetization of the free layer. -
6. The magnetic sensor according to claim 1, wherein
the magnetoresistive effect element is a magnetic tunnel effect element, and wherein the coil generates a bias magnetic field for allowing the magnetic tunnel effect element to detect an external magnetic field applied to the element.
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7. A magnetic sensor comprising:
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a substrate;
a first magnetic detection portion formed on the substrate, the first magnetic detection portion indicating a physical quantity which becomes larger as the magnitude of a magnetic field in a first direction in a first orientation increases, the first magnetic detection portion indicating a the physical quantity which becomes smaller as the magnitude of a magnetic field in the opposite direction to the first direction in the first orientation increases;
a second magnetic detection portion formed on the substrate, the second magnetic detection portion indicating a physical quantity which becomes larger as the magnitude of a magnetic field in a second direction in a second orientation that crosses the first orientation increases, the second magnetic detection portion indicating the physical quantity which becomes smaller as the magnitude of a magnetic field in the opposite direction to the second direction in the second orientation increases;
a first testing coil disposed in the vicinity of the first magnetic detection portion, for generating a magnetic field whose magnitude and direction change in the first orientation depending on electric current flowing therethrough, to apply the generated magnetic field to the first magnetic detection portion;
a second testing coil disposed in the vicinity of the second magnetic detection portion, for generating a magnetic field whose magnitude and direction change in the second orientation depending on electric current flowing therethrough, to apply the generated magnetic field to the second magnetic detection portion;
an electric current supply source;
a connection conductor for connecting the first testing coil and the second testing coil in series to the electric current supply source; and
a conduction control circuit interposed in a closed circuit which comprises the electric current supply source, the first testing coil, the second testing coil and the connection conductor, for switching the states of the first testing coil and of the second testing coil into either a conductive state in which electric current from the electric current supply source flows therethrough or an unconductive state in which the electric current is shut off. - View Dependent Claims (8)
a detection circuit for selecting either the first magnetic detection portion or the second magnetic detection portion in response to an instruction signal from exterior, to detect a physical quantity indicated by the selected magnetic detection portion; and
a control circuit for generating the instruction signal;
whereinthe first magnetic detection portion is configured so as to indicate the physical quantity of a first magnitude when the magnetic field of a predetermined magnitude is applied In the first direction in the first orientation, the first magnetic detection portion being configured so as to indicate the physical quantity of a second magnitude different from the first magnitude when the magnetic field of the predetermined magnitude is applied in the opposite direction to the first direction in the first orientation, wherein the second magnetic detection portion is configured so as to indicate the physical quantity of the first magnitude when the magnetic field of the predetermined magnitude is applied in the second direction in the second orientation, the second magnetic detection portion being configured so as to indicate the physical quantity of the second magnitude when the magnetic field of the predetermined magnitude is applied in the opposite direction to the second direction in the second orientation, and wherein when electric current of a predetermined magnitude flows in a predetermined direction through the first testing coil, the first testing coil applies a magnetic field of the predetermined magnitude in the first direction to the first magnetic detection portion and the second testing coil applies a magnetic field of the predetermined magnitude in the opposite direction to the second direction to the second magnetic detection portion, whereas when electric current of the predetermined magnitude flows in the opposite direction to the predetermined direction through the first testing coil, the first testing coil applies a magnetic field of the predetermined magnitude in the opposite direction to the first direction to the first magnetic detection portion and the second testing coil applies a magnetic field of the predetermined magnitude in the second direction to the second magnetic detection portion.
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9. A magnetic sensor comprising:
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a substrate;
a first magnetic detection portion formed on the substrate, the first magnetic detection portion indicating a physical quantity which becomes larger as the magnitude of a magnetic field in a first direction in a first orientation increases, the first magnetic detection portion indicating the physical quantity which becomes smaller as the magnitude of a magnetic field in the opposite direction to the first direction in the first orientation increases;
a second magnetic detection portion formed on the substrate, the second magnetic detection portion indicating a physical quantity which becomes larger as the magnitude of a magnetic field in a second direction in a second orientation that crosses the first orientation increases, the second magnetic detection portion indicating the physical quantity which becomes smaller as the magnitude of a magnetic field in the opposite direction to the second direction in the second orientation increases;
a first testing coil buried in the substrate and under the first magnetic detection portion, for generating a magnetic field whose magnitude and direction change in the first orientation depending on electric current flowing therethrough, to apply the generated magnetic field to the first magnetic detection portion;
a second testing coil buried in the substrate and under the second magnetic detection portion, for generating a magnetic field whose magnitude and direction change in the second orientation depending on electric current flowing therethrough, to apply the generated magnetic field to the second magnetic detection portion;
an electric current supply source;
a connection conductor for connecting the first testing coil and the second testing coil in series to the electric current supply source; and
a conduction control circuit interposed in a closed circuit that comprises the electric current supply source, the first testing coil, the second testing coil and the connection conductor, for switching the states of the first testing coil and of the second testing coil into either a conductive state in which an electric current from the electric current supply source flows therethrough or an unconductive state in which the electric current is shut off. - View Dependent Claims (10)
a detection circuit for selecting either the first magnetic detection portion or the second magnetic detection portion in response to an instruction signal from exterior, to detect a physical quantity indicated by the selected magnetic detection unit; and
a control circuit for generating the instruction signal;
whereinthe first magnetic detection portion is configured so as to indicate the physical quantity of a first magnitude when the magnetic field of a predetermined magnitude is applied in the first direction in the first orientation, the first magnetic detection portion being configured so as to indicate the physical quantity of a second magnitude different from the first magnitude when the magnetic field of the predetermined magnitude is applied in the opposite direction to the first direction in the first orientation, wherein the second magnetic detection portion is configured so as to indicate the physical quantity of the first magnitude when the magnetic field of the predetermined magnitude is applied in the second direction in the second orientation, the second magnetic detection portion being configured so as to indicate the physical quantity of the second magnitude when the magnetic field of the predetermined magnitude is applied in the opposite direction to the second direction in the second orientation, and wherein when electric current of a predetermined magnitude flows in a predetermined direction through the first testing coil, the first testing coil applies a magnetic field of the predetermined magnitude in the first direction to the first magnetic detection portion and the second testing coil applies a magnetic field of the predetermined magnitude in the opposite direction to the second direction to the second magnetic detection portion, whereas when electric current of the predetermined magnitude flows in the opposite direction to the predetermined direction through the first testing coil, the first testing coil applies a magnetic field of the predetermined magnitude in the opposite direction to the first direction to the first magnetic detection portion and the second testing coil applies a magnetic field of the predetermined magnitude In the second direction to the second magnetic detection portion.
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Specification
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Current AssigneeYamaha Corporation
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Original AssigneeYamaha Corporation
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InventorsKaneko, Makoto, Sato, Hideki, Suzuki, Toshihisa
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Primary Examiner(s)Le, N.
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Assistant Examiner(s)Zaveri, Subhash
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Application NumberUS10/281,178Publication NumberTime in Patent Office505 DaysField of Search324/249, 324/252, 324/235, 324/239, 324/207.21, 324/260, 324/238, 324/262, 360/324, 360/200, 360/206, 338/32.R, 338/32.MUS Class Current324/252CPC Class CodesB82Y 25/00 Nanomagnetism, e.g. magneto...G01R 33/093 using multilayer structures...
