Magnetic field sensor and electronic circuit that pass amplifier current through a magnetoresistance element
First Claim
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1. An electronic circuit coupled to receive a power supply voltage, comprising:
- a first magnetoresistance element having first and second terminals;
a first transistor having a control node, a first current passing node, and a second current passing node;
a first voltage generating source having first and second nodes between which a first fixed voltage is generated, wherein the first terminal of the first magnetoresistance element is coupled to the first current passing node of the first transistor, wherein the first node of the first voltage generating source is coupled to the control node of the first transistor and the second node of the first voltage generating source is coupled to the second terminal of the first magnetoresistance element, wherein the electronic circuit is operable to generate a first current signal at the second current passing node of the first transistor related to a resistance value of the first magnetoresistance element;
a second magnetoresistance element having first and a second terminals;
a second transistor having a control node, a first current passing node, and a second current passing node;
a second voltage generating source having first and second nodes between which a second fixed voltage is generated; and
a load coupled to the second current passing node of the first transistor, wherein the second current passing node of the first transistor is coupled to the second current passing node of the second transistor, wherein the first terminal of the second magnetoresistance element is coupled to the first current passing node of the second transistor, wherein the first node of the second voltage generating source is coupled to the control node of the second transistor and the second node of the second voltage generating source is coupled to the second terminal of the second magnetoresistance element, wherein the electronic circuit is operable to generate a second current signal at the second current passing node of the second transistor related to a resistance value of the second magetoresistance element, wherein a current passing through the load is equal to a difference between the first current signal and the second current signal, wherein the second terminals of the first and second magnetoresistance elements are not coupled together.
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Abstract
Electronic circuits used in magnetic field sensors use transistors for passing a current through the transistors and also through a magnetoresistance element.
330 Citations
21 Claims
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1. An electronic circuit coupled to receive a power supply voltage, comprising:
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a first magnetoresistance element having first and second terminals; a first transistor having a control node, a first current passing node, and a second current passing node; a first voltage generating source having first and second nodes between which a first fixed voltage is generated, wherein the first terminal of the first magnetoresistance element is coupled to the first current passing node of the first transistor, wherein the first node of the first voltage generating source is coupled to the control node of the first transistor and the second node of the first voltage generating source is coupled to the second terminal of the first magnetoresistance element, wherein the electronic circuit is operable to generate a first current signal at the second current passing node of the first transistor related to a resistance value of the first magnetoresistance element; a second magnetoresistance element having first and a second terminals; a second transistor having a control node, a first current passing node, and a second current passing node; a second voltage generating source having first and second nodes between which a second fixed voltage is generated; and a load coupled to the second current passing node of the first transistor, wherein the second current passing node of the first transistor is coupled to the second current passing node of the second transistor, wherein the first terminal of the second magnetoresistance element is coupled to the first current passing node of the second transistor, wherein the first node of the second voltage generating source is coupled to the control node of the second transistor and the second node of the second voltage generating source is coupled to the second terminal of the second magnetoresistance element, wherein the electronic circuit is operable to generate a second current signal at the second current passing node of the second transistor related to a resistance value of the second magetoresistance element, wherein a current passing through the load is equal to a difference between the first current signal and the second current signal, wherein the second terminals of the first and second magnetoresistance elements are not coupled together. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A magnetic field sensor coupled to receive a power supply voltage, comprising:
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a substrate; and an electronic circuit disposed upon the substrate, the electronic circuit comprising; a first magnetoresistance element having first and second terminals; a first transistor having a control node, and first current passing node, and a second current passing node; a first voltage generating source having first and second nodes between which a first fixed voltage is generated, wherein the first terminal of the first magnetoresistance element is coupled to the first current passing node of the first transistor, wherein the first node of the first voltage generating source is coupled to the control node of the first transistor and the second node of the first voltage generating source is coupled to the second terminal of the first magnetoresistance element, wherein the electronic circuit is operable to generate a first current signal at the second current passing node of the first transistor related to a resistance value of the first magnetoresistance element, wherein the electronic circuit further comprises; a second magnetoresistance element having first and second terminals; a second transistor having a control node, a first current passing node, and a second current passing node; and a second voltage generating source having first and second nodes between which a second fixed voltage is generated; a load coupled to the second current passing node of the first transistor, wherein the second current passing node of the first transistor is coupled to the second current passing node of the second transistor, wherein the first terminal of the second magnetoresistance element is coupled to the first current passing node of the second transistor, wherein the first node of the second voltage generating source is coupled to the control node of the second transistor and the second node of the second voltage generating source is coupled to the second terminal of the second magnetoresistance element, wherein the electronic circuit is operable to generate a second current signal at the second current passing node of the second transistor related to a resistance value of the second magnetoresistance element, wherein a current passing through the load is equal to a difference between the first current signal and the second current signal, wherein the electronic circuit further comprises; a third magnetoresistance element having first and second terminals; a third transistor having a control node, and first current passing node, and a second current passing node; and a third voltage generating source having first and second nodes between which a third fixed voltage is generated, wherein the first terminal of the third magnetoresistance element is coupled to the first current passing node of the third transistor, wherein the first node of the third voltage generating source is coupled to the control node of the third transistor and the second node of the third voltage generating source is coupled to the second terminal of the third magnetoresistance element, wherein the electronic circuit is operable to generate a third current signal at the second current passing node of the third transistor related to a resistance value of the third magnetoresistance element, wherein the electronic circuit further comprises; a fourth magnetoresistance element having first and second terminals; a fourth transistor having a control node, a first current passing node, and a second current passing node; a fourth voltage generating source having first and second nodes between which a fourth fixed voltage is generated; a second load coupled to the second current passing node of the third transistor, wherein the second current passing node of the third transistor is coupled to the second current passing node of the fourth transistor, wherein the first terminal of the fourth magnetoresistance element is coupled to the first current passing node of the fourth transistor, wherein the first node of the fourth voltage generating source is coupled to the control node of the fourth transistor and the second node of the fourth voltage generating source is coupled to the second terminal of the fourth magnetoresistance element, wherein the electronic circuit is operable to generate a fourth current signal at the second current passing node of the fourth transistor related to a resistance value of the fourth magnetoresistance element, wherein a current passing through the second load is equal to a difference between the third current signal and the fourth current signal; a fifth magnetoresistance element having first and second terminals; a fifth transistor having a control node, and first current passing node, and a second current passing node; a fifth voltage source having first and second nodes between which a fifth fixed voltage is generated, wherein the first terminal of the fifth magnetoresistance element is coupled to the first current passing node of the fifth transistor, wherein the first node of the fifth voltage generating source is coupled to the control node of the fifth transistor and the second node of the fifth voltage generating source is coupled to the second terminal of the fifth magnetoresistance element, wherein the electronic circuit is operable to generate a first current signal at the second current passing node of the fifth transistor related to a resistance value of the fifth magnetoresistance element, wherein the electronic circuit further comprises; a sixth magnetoresistance element having first and second terminals; a sixth transistor having a control node, an first current passing node, and a second current passing node; and a sixth voltage generating source having first and second nodes between which a sixth fixed voltage is generated; a load coupled to the second current passing node of the fifth transistor, wherein the second current passing node of the fifth transistor is coupled to the second current passing node of the sixth transistor, wherein the first terminal of the sixth magnetoresistance element is coupled to the first current passing node of the sixth transistor, wherein the first node of the sixth voltage generating source is coupled to the control node of the sixth transistor and the second node of the sixth voltage generating source is coupled to the second terminal of the sixth magnetoresistance element, wherein the electronic circuit is operable to generate a second current signal at the second current passing node of the sixth transistor related to a resistance value of the sixth magnetoresistance element, wherein a current passing through the load is equal to a difference between the first current signal and the second current signal, wherein the electronic circuit further comprises; a seventh magnetoresistance element having first and second terminals; a seventh transistor having a control node, and first current passing node, and a second current passing node; and a seventh voltage generating source having first and second nodes between which a seventh fixed voltage is generated, wherein the first terminal of the seventh magnetoresistance element is coupled to the first current passing node of the seventh transistor, wherein the first node of the seventh voltage generating source is coupled to the control node of the seventh transistor and the second node of the seventh voltage generating source is coupled to the second terminal of the seventh magnetoresistance element, wherein the electronic circuit is operable to generate a third current signal at the second current passing node of the seventh transistor related to a resistance value of the seventh magnetoresistance element, wherein the electronic circuit further comprises; an eighth magnetoresistance element having first and second terminals; an eighth transistor having a control node, a first current passing node, and a second current passing node; an eighth voltage source having first and second nodes between which an eighth fixed voltage is generated; and a second load coupled to the second current passing node of the seventh transistor, wherein the second current passing node of the seventh transistor is coupled to the second current passing node of the eighth transistor, wherein the first terminal of the eighth magnetoresistance element is coupled to the first current passing node of the eighth transistor, wherein the first node of the eighth voltage generating source is coupled to the control node of the eighth transistor and the second node of the eighth voltage generating source is coupled to the second terminal of the eighth magnetoresistance element, wherein the electronic circuit is operable to generate a fourth current signal at the second current passing node of the eighth transistor related to a resistance value of the eighth magnetoresistance element, wherein a current passing through the second load is equal to a difference between the third current signal and the fourth current signal. - View Dependent Claims (15, 16, 17, 18, 19, 20, 21)
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Specification