Compensation system for electronic compass
First Claim
1. A method for calibrating a magnetoresistive sensor in a magnetic compass, said compass including an electronic circuit and a microcomputer for processing an output signal from said sensor, said sensor being alternately biased between a reset mode and a set mode, said method comprising the steps of:
- measuring the value of the sensor output signal relative to an offset reference value in said reset mode and in said set mode, comparing the value of the sensor output signal in the reset mode with the value of said sensor output signal in the set mode, if the output signal has a value of zero in the reset mode at the same time it has an output voltage of zero in the set mode, maintaining the existing offset calibration value of the sensor without change, if the output signal during the reset mode has a non-zero value at a given time and the output signal during the set mode has the same non-zero value at said given time and both of said non-zero values are of the same sign, changing the offset calibration value of the sensor by adding a calibration value equal to a first predetermined fractional part of said non-zero value to a second predetermined fractional part of said existing offset reference value.
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Accused Products
Abstract
An electronic compass is described for use in vehicles. The compass employs a magnetoresistive sensor for sensing the earth magnetic field and the sensor is operated in alternate set/reset bias modes. In a first embodiment, the compass is provided with deviation compensation by a closed loop system including measurement of the sensor output signals and an offset current strap for nullifying the vehicle deviation field. In a second embodiment, deviation compensation is provided by operation in an initial calibration mode and by operation in a normal compensation mode to adjust compensation, as needed, on a long term basis during normal operation of the compass. In the initial calibration mode, while the vehicle is being driven, the signal peak values are adjusted to a nominal earth field level by changing the offset current. Then, compensating signal reference values for each axis are determined as each peak for that axis is determined. The system automatically exits the initial calibration mode when certain criteria have been met. In the normal compensation mode, the signal reference value for each axis is adjusted at least once during the time interval between turn-on and turn-off of the vehicle ignition switch.
275 Citations
75 Claims
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1. A method for calibrating a magnetoresistive sensor in a magnetic compass, said compass including an electronic circuit and a microcomputer for processing an output signal from said sensor, said sensor being alternately biased between a reset mode and a set mode, said method comprising the steps of:
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measuring the value of the sensor output signal relative to an offset reference value in said reset mode and in said set mode, comparing the value of the sensor output signal in the reset mode with the value of said sensor output signal in the set mode, if the output signal has a value of zero in the reset mode at the same time it has an output voltage of zero in the set mode, maintaining the existing offset calibration value of the sensor without change, if the output signal during the reset mode has a non-zero value at a given time and the output signal during the set mode has the same non-zero value at said given time and both of said non-zero values are of the same sign, changing the offset calibration value of the sensor by adding a calibration value equal to a first predetermined fractional part of said non-zero value to a second predetermined fractional part of said existing offset reference value. - View Dependent Claims (2)
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3. A compensated electronic compass system suitable for use in a vehicle comprising:
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a two-axis compass sensor comprising a first magnetoresistive sensor and a second magnetoresistive sensor for detecting an external magnetic field and developing electronic signals representative of the strength and direction of said magnetic field, said external magnetic field being a combination of the earth magnetic field and a deviating magnetic field of the vehicle;
each of said first and second sensors comprising at least one magnetoresistive field sensing element having a magnetic field sensitive axis and having an output which provides an output signal representative of a component of said external magnetic field along said sensitive axis, said first and second sensors being orientated with their sensitive axes in a predetermined angular relation with each other;
a digital electronic circuit including a microcomputer coupled with said output of said first sensor and said output of said second sensor;
said compass system providing a direction indicating signal to a compass heading display located within the vehicle, said direction indicating signal compensated for the deviating magnetic field of the vehicle so as to be representative of the magnetic heading of the vehicle;
said compass system having an initial calibration mode to determine an initial deviation compensation for a particular vehicle installation and a normal calibration mode which is operative during normal compass operation, said compass system provided with a manual actuation to set said system into said initial calibration mode, said compass system automatically exiting said initial calibration mode into said normal calibration mode after said initial deviation compensation is complete. - View Dependent Claims (4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29)
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30. A rearview mirror mounted compensated electronic compass system suitable for use in a vehicle comprising:
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an inside rearview mirror assembly, said assembly including a mirror mounting bracket for mounting said assembly in the vehicle;
a two-axis compass sensor comprising a first magnetoresistive sensor and a second magnetoresistive sensor for detecting an external magnetic field and developing electronic signals representative of the strength and direction of said magnetic field, said external magnetic field being a combination of the earth magnetic field and a deviating magnetic field of the vehicle;
each of said first and second sensors comprising at least one magnetoresistive field sensing element having a magnetic field sensitive axis and having an output which provides an output signal representative of a component of said external magnetic field along said sensitive axis, said first and second sensors being orientated with their sensitive axes in a predetermined angular relation with each other;
a digital electronic circuit including a microcomputer coupled with said output of said first sensor and said output of said second sensor;
said compass system providing a direction indicating signal to a compass heading display located within the vehicle, said direction indicating signal compensated for the deviating magnetic field of the vehicle so as to be representative of the magnetic heading of the vehicle;
said compass system having an initial calibration mode to determine an initial deviation compensation for a particular vehicle installation and a normal calibration mode which is operative during normal compass operation, said compass system automatically exiting said initial calibration mode into said normal calibration mode after said initial deviation compensation is complete and;
wherein said two-axis compass sensor and said digital electronic circuit are located in a module that is secured to said mounting bracket of said inside rearview mirror assembly. - View Dependent Claims (31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56)
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57. A compensated electronic compass system suitable for use in a vehicle comprising:
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a two-axis compass sensor comprising a first magnetoresistive sensor and a second magnetoresistive sensor for detecting an external magnetic field and developing electronic signals representative of the strength and direction of said magnetic field, said external magnetic field being a combination of the earth magnetic field and a deviating magnetic field of the vehicle;
each of said first and second sensors comprising at least one magnetoresistive field sensing element having a magnetic field sensitive axis and having an output which provides an output signal representative of a component of said external magnetic field along said sensitive axis, said first and second sensors being orientated with their sensitive axes in a predetermined angular relation with each other;
a digital electronic circuit including a microcomputer coupled with said output of said first sensor and said output of said second sensor;
said compass system providing a direction indicating signal to a compass heading display located within the vehicle, said direction indicating signal compensated for the deviating magnetic field of the vehicle so as to be representative of the magnetic heading of the vehicle;
said compass system having an initial calibration mode to determine an initial deviation compensation for a particular vehicle installation and a normal calibration mode which is operative during normal compass operation and;
wherein said magnetic field sensitive axis of said first magnetoresistive sensor is orientated orthogonal to said magnetic field sensitive axis of said second magnetoresistive sensor and wherein said magnetic field sensitive axis of said first magnetoresistive sensor is orientated parallel to the longitudinal axis of the vehicle when said two-axis compass sensor is mounted in the vehicle. - View Dependent Claims (58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75)
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Specification