US2021190893A1PendingUtilityA1

Magnetic sensor sensitivity matching calibration

Assignee: MELEXIS TECHNOLOGIES NVPriority: Oct 6, 2017Filed: Mar 9, 2021Published: Jun 24, 2021
Est. expiryOct 6, 2037(~11.2 yrs left)· nominal 20-yr term from priority
G01R 35/005G01R 33/075G01R 33/022G01R 33/0035G01R 33/0017
67
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Claims

Abstract

A magnetic sensor device comprises a substrate. A first magnetic sensor, a second magnetic sensor, and one or more inductors are disposed over the substrate and are controlled by a magnetic sensor controller having a control circuit. The control circuit is adapted for controlling the first magnetic sensor to measure magnetic fields under presence of a first set of magnetic fields, and for controlling the second magnetic sensor to measure magnetic fields under presence of a second set of magnetic fields generated by the inductors. The control circuit calculates a relative sensitivity matching value that converts magnetic field values measured by the second magnetic sensor to a comparable magnetic field value measured by the first magnetic sensor or vice versa. The control circuit is further adapted for correcting a measurement by the second magnetic sensor using the relative sensitivity matching value to produce a corrected measurement, and for calculating a magnetic field gradient by combining a measurement by the first magnetic sensor with the corrected measurement.

Claims

exact text as granted — not AI-modified
1 . A magnetic sensor device, comprising:
 a substrate having a surface;   a first magnetic sensor disposed at a first location on, over, or in direct contact with the surface, the first magnetic sensor being configured for detecting a magnetic field;   a second magnetic sensor disposed at a second location different from the first location on, over, or in direct contact with the surface, the second magnetic sensor being configured for detecting a magnetic field;   one or more inductors disposed over the substrate surface and located to provide a magnetic field to the first magnetic sensor and to the second magnetic sensor; and   a magnetic sensor controller having a control circuit for controlling the first magnetic sensor, the second magnetic sensor, and the one or more inductors;   wherein the control circuit includes circuitry adapted:   for controlling the first magnetic sensor to measure a first magnetic field and the one or more inductors to provide a fifth magnetic field;   for controlling the first magnetic sensor to measure a third magnetic field and the one or more inductors to provide a sixth magnetic field;   for controlling the second magnetic sensor to measure a second magnetic field and the one or more inductors to provide the fifth magnetic field;   for controlling the second magnetic sensor to measure a fourth magnetic field and the one or more inductors to provide the sixth magnetic field;   for calculating a relative sensitivity matching value that converts magnetic field values measured by the first magnetic sensor to a comparable magnetic field value measured by the second magnetic sensor or that converts magnetic field values measured by the second magnetic sensor to a comparable magnetic field value measured by the first magnetic sensor.   
     
     
         2 . The magnetic sensor device of  claim 1 , wherein the inductor is a coil, a solenoid, or a straight conductor. 
     
     
         3 . The magnetic sensor device of  claim 1 , wherein the fifth or the sixth magnetic field is zero, or wherein the fifth and sixth magnetic fields have an opposite polarity, or wherein the fifth and sixth magnetic fields have a common magnitude. 
     
     
         4 . The magnetic sensor device of  claim 1 , wherein the control circuit includes circuitry adapted for controlling the first magnetic sensor to measure a first ambient magnetic field,
 for controlling the second magnetic sensor to measure a second ambient magnetic field,   for correcting the ambient magnetic field measurement of the second magnetic sensor with the relative sensitivity matching value to form a corrected measurement, and   for combining the ambient magnetic field measurement by the first magnetic sensor and the corrected ambient magnetic field measurement to form a magnetic field measurement.   
     
     
         5 . The magnetic sensor device of  claim 4 , wherein the control circuit includes circuitry adapted for controlling the first magnetic sensor to measure the ambient magnetic field at the same time that the circuitry controls the second magnetic sensor to measure the ambient magnetic field. 
     
     
         6 . The magnetic sensor device of  claim 3 , wherein the control circuit includes circuitry adapted for controlling the one or more inductors to provide a magnetic field having a forward polarity and for controlling the first magnetic sensor to measure the ambient magnetic field including the forward polarity magnetic field,
 for controlling the one or more inductors to provide a magnetic field having a reverse polarity and for controlling the first magnetic sensor to measure the ambient magnetic field including the reverse polarity magnetic field, and   for then calculating the ambient magnetic field excluding any field provided by the one or more inductors by combining the two measurements.   
     
     
         7 . The magnetic sensor device of  claim 1 , wherein the control circuit includes circuitry adapted for controlling the one or more inductors to provide a magnetic field having a forward polarity and for controlling the first magnetic sensor to measure the ambient magnetic field including the forward polarity magnetic field,
 for controlling the one or more inductors to provide a magnetic field having a reverse polarity and for controlling the second magnetic sensor to measure the ambient magnetic field including the reverse polarity magnetic field,   for correcting the measurement by the second magnetic sensor using the relative sensitivity matching value to produce a corrected measurement, and   for then calculating the ambient magnetic field excluding any field provided by the one or more inductors by combining the measurement by the first magnetic sensor and the corrected measurement.   
     
     
         8 . The magnetic sensor device of  claim 1 , wherein the control circuit includes circuitry adapted for controlling the first magnetic sensor to measure the ambient magnetic field and for controlling the second magnetic sensor to measure the ambient magnetic field,
 for correcting the measurement by the second magnetic sensor using the relative sensitivity matching value to produce a corrected measurement, and   for calculating a magnetic field gradient by combining the measurement by the first magnetic sensor and the corrected measurement.   
     
     
         9 . The magnetic sensor device of  claim 1 , wherein the relative sensitivity matching value includes or is a multiplication or division factor,
 wherein the relative sensitivity matching value includes or is an additive or subtractive offset factor, or   wherein the relative sensitivity matching value includes both a multiplication or division factor and an additive or subtractive offset factor.   
     
     
         10 . A method of matching multiple magnetic sensors in a magnetic sensor device, comprising:
 providing a substrate having a surface, a first magnetic sensor disposed at a first location on, over, or in direct contact with the surface, a second magnetic sensor disposed at a second location on, over, or in direct contact with the surface, the first magnetic sensor and the second magnetic sensor both being adapted for detecting a magnetic field and the first location different from the second location, one or more inductors disposed over the substrate surface and located to provide a magnetic field to the first magnetic sensor and to the second magnetic sensor; and   controlling the first magnetic sensor to measure a first magnetic field and the one or more inductors to provide a fifth magnetic field;   controlling the first magnetic sensor to measure a third magnetic field and the one or more inductors to provide a sixth magnetic field;   controlling the second magnetic sensor to measure a second magnetic field and the one or more inductors to provide the fifth magnetic field;   controlling the second magnetic sensor to measure a fourth magnetic field and the one or more inductors to provide the sixth magnetic field; and   calculating a relative sensitivity matching value that converts magnetic field values measured by the first magnetic sensor to a comparable magnetic field value measured by the second magnetic sensor or that converts magnetic field values measured by the second magnetic sensor to a comparable magnetic field value measured by the first magnetic sensor.   
     
     
         11 . The method of  claim 10 , comprising:
 controlling the first magnetic sensor to measure a first ambient magnetic field,   controlling the second magnetic sensor to measure a second ambient magnetic field,   correcting the ambient magnetic field measurement by the second magnetic sensor with the relative sensitivity matching value to produce a corrected ambient magnetic field measurement, and   combining the corrected ambient magnetic field measurement and the ambient magnetic field measurement by the first magnetic sensor to form a magnetic field measurement.   
     
     
         12 . The method of  claim 11 , wherein measuring the first ambient magnetic field and measuring the second ambient magnetic field are carried out at the same time. 
     
     
         13 . The method of  claim 10 , comprising:
 controlling the one or more inductors to provide the fifth magnetic field having a forward polarity and controlling the first magnetic sensor to measure the ambient magnetic field including the forward polarity magnetic field,   controlling the one or more inductors to provide the sixth magnetic field having a reverse polarity and controlling the first magnetic sensor to measure the ambient magnetic field including the reverse polarity magnetic field, and then calculating the ambient magnetic field excluding any field provided by the one or more inductors by combining the two measurements.   
     
     
         14 . The method of  claim 10 , comprising:
 controlling the one or more inductors to provide the fifth magnetic field having a forward polarity and controlling the first magnetic sensor to measure the ambient magnetic field including the forward polarity magnetic field,   controlling the one or more inductors to provide the sixth magnetic field having a reverse polarity and controlling the first magnetic sensor to measure the ambient magnetic field including the reverse polarity magnetic field,   correcting the measurement by the second magnetic sensor with the relative sensitivity matching value to produce a corrected measurement, and then calculating the ambient magnetic field excluding any field provided by the one or more inductors by combining the measurement by the first magnetic sensor and the corrected measurement.   
     
     
         15 . The method of  claim 10 , wherein the relative sensitivity matching value includes or is a multiplication or division factor,
 wherein the relative sensitivity matching value includes or is an additive or subtractive offset factor, or   wherein the relative sensitivity matching value includes both a multiplication or a division factor and an additive or subtractive offset factor.

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