Geomagnetic sensor for auto-calibration of magnetic field deviation and method of using the same
First Claim
1. A geomagnetic sensor for auto-calibration of a deviation of a magnetic field, comprising:
- a geomagnetic detector which includes X-axis and Y-axis fluxgates orthogonal to each other and receives a drive signal to detect an electromotive force corresponding to a geomagnetism;
a signal processor which converts the electromotive force output from the geomagnetic detector into X-axis and Y-axis output values and outputs the X-axis and Y-axis output values; and
a drive signal generator which applies the drive signal to the geomagnetic detector, wherein each of the X-axis and Y-axis fluxgates of the geomagnetic detector comprises;
cores;
a solenoid type exciting coil which receives the drive signal to excite the cores; and
at least two detection coils which wind around the cores in a solenoid form so as to detect the electromotive force induced by the cores and the exciting coil and which have different numbers of turns.
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Abstract
A geomagnetic sensor for auto-calibration of a deviation and a method of using the geomagnetic sensor. The geomagnetic sensor includes a geomagnetic detector including X-axis and Y-axis fluxgates orthogonal to each other and receiving a drive signal to detect an electromotive force corresponding to a geomagnetism, a signal processor converting the electromotive force output from the geomagnetic detector into X-axis and Y-axis output values and outputting the X-axis and Y-axis output values, and a drive signal generator applying the drive signal to the geomagnetic detector. Each of the X-axis and Y-axis fluxgates includes cores, a solenoid type exciting coil, and at least two detection coils winding around the cores in a solenoid form. Accordingly, as an azimuth is measured using output values detected by the separated detection coil, the azimuth can be exactly and easily detected regardless of an external magnetic field.
12 Citations
7 Claims
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1. A geomagnetic sensor for auto-calibration of a deviation of a magnetic field, comprising:
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a geomagnetic detector which includes X-axis and Y-axis fluxgates orthogonal to each other and receives a drive signal to detect an electromotive force corresponding to a geomagnetism;
a signal processor which converts the electromotive force output from the geomagnetic detector into X-axis and Y-axis output values and outputs the X-axis and Y-axis output values; and
a drive signal generator which applies the drive signal to the geomagnetic detector, wherein each of the X-axis and Y-axis fluxgates of the geomagnetic detector comprises;
cores;
a solenoid type exciting coil which receives the drive signal to excite the cores; and
at least two detection coils which wind around the cores in a solenoid form so as to detect the electromotive force induced by the cores and the exciting coil and which have different numbers of turns. - View Dependent Claims (2, 3, 4)
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5. A method of auto-calibration of a deviation of a magnetic field of a geomagnetic sensor comprising X-axis and Y-axis fluxgates orthogonal to each other and each comprising at least two detection coils which detect an electromotive force corresponding to a geomagnetism, the method comprising:
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(a) applying a drive signal to each of the X-axis and Y-axis fluxgates;
(b) detecting the electromotive force induced to the X-axis fluxgate from the at least two detection coils according to the drive signal and converting the electromotive force into predetermined X-axis output values;
(c) detecting the electromotive force induced to the Y-axis fluxgate from the at least two detection coils according to the drive signal and converting the electromotive force into predetermined Y-axis output values; and
(d) calculating a direction and a strength of a magnetic field based on a gradient of a straight line linking two of points on coordinates corresponding to the X-axis and Y-axis output values. - View Dependent Claims (6, 7)
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Specification