Temperature compensated and self-calibrated current sensor
First Claim
1. A method to compensate for the temperature dependence and calibration drift of a current sensor comprised of a plurality of magnetic field sensors positioned around a current carrying conductor, the outputs of which are electronically combined to produce a signal representing the current flowing in said electrical conductor, where the sensitivity to magnetic fields of each sensor is proportional to the voltage of the power source that is applied to each sensor, where each magnetic field sensor output consists of a DC offset voltage that is independent of magnetic fields superimposed on a variable voltage that is proportional to the magnetic field, and where the DC output offset voltage of each magnetic field sensor has a temperature dependence that is substantially the same as the temperature dependence of the magnetic field sensor to magnetic fields generated by a current carrying conductor, comprising the steps of using an electronic signal processor to isolate the DC offset voltage generated by the plurality of magnetic field sensors, and using the DC offset voltage in order to create an error signal to control a voltage regulator that generates the power source for the plurality of magnetic field sensors.
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Accused Products
Abstract
A method is described to provide temperature compensation and reduction of drift due to aging for a current sensor based on a plurality of magnetic field sensors positioned around a current carrying conductor. The offset voltage signal generated by each magnetic field sensor is used to correct variations in the output signal due to temperature variations and aging.
60 Citations
4 Claims
- 1. A method to compensate for the temperature dependence and calibration drift of a current sensor comprised of a plurality of magnetic field sensors positioned around a current carrying conductor, the outputs of which are electronically combined to produce a signal representing the current flowing in said electrical conductor, where the sensitivity to magnetic fields of each sensor is proportional to the voltage of the power source that is applied to each sensor, where each magnetic field sensor output consists of a DC offset voltage that is independent of magnetic fields superimposed on a variable voltage that is proportional to the magnetic field, and where the DC output offset voltage of each magnetic field sensor has a temperature dependence that is substantially the same as the temperature dependence of the magnetic field sensor to magnetic fields generated by a current carrying conductor, comprising the steps of using an electronic signal processor to isolate the DC offset voltage generated by the plurality of magnetic field sensors, and using the DC offset voltage in order to create an error signal to control a voltage regulator that generates the power source for the plurality of magnetic field sensors.
- 3. A device for measuring electric current comprised of a plurality of magnetic field sensors positioned around a current carrying conductor, where each sensor is sensitive to one vector component of the magnetic field generated by the electric current, where the sensors are positioned along one or more continuous closed paths encircling the conductor, where the sensors have substantially identical sensitivity along each closed path, where the sensors are equally spaced along the length of each closed path, where the vector direction of sensitivity for each sensor is oriented to be tangential with the closed path at each sensor location, where the sensitivity to magnetic fields of each sensor is proportional to the voltage of the power source that is applied to each sensor, where each magnetic field sensor output consists of a DC offset voltage that is independent of magnetic fields superimposed on a variable voltage that is proportional to the magnetic field, where the DC output offset voltage from the plurality of magnetic field sensors has a temperature dependence that is substantially the same as the temperature dependence of sensitivity to magnetic fields, where an electronic signal processor isolates the DC offset voltage generated by the plurality of magnetic field sensors, and where the DC offset voltage is used in order to create an error signal to control a voltage regulator that generates the power source for the plurality of magnetic field sensors.
Specification