Circuit arrangement and a method for compensating changes of a transfer factor of a magnetic field sensor arrangement
First Claim
1. A circuit arrangement for the compensation of changes of a transfer factor of a magnetic field sensor arrangement wherein the magnetic field sensor arrangement comprises an auxiliary signal generator, a voltage-current transducer and a coil arrangement for producing an first and a second auxiliary magnetic field which are superimposed upon a primary magnetic field to be measured by a first and second magnetic sensor, the magnetic field sensor arrangement further comprising a first summing element for determining a component of an output voltage of the first and second magnetic sensors produced by the auxiliary magnetic fields, the magnetic field sensor arrangement further comprising a correlator that provides a correlator output signal based upon the auxiliary magnetic fields voltage component and the output of the auxiliary signal generator, the circuit arrangement comprising:
- an integrated circuit arrangement witha first analog to digital converter with an input operably connected to the output of the correlator and operable to output a digital correlator signal based upon the correlator output signal,a digital regulator with an input operably connected in series with the output of the first analog to digital converter and operable to generate a variable digital regulating signal based upon the digital correlator signal,a digital to analog converter with an input operably connected in series with the output of the digital regulator and operable to output a variable regulating component based upon the output of the digital regulator, anda control element with an input operably connected in series with the output of the digital to analog converter, and operable to output a control signal based upon a summation of the variable regulating component from the digital to analog converter and a constant regulating component, wherein the output of the control element is operably connected to the first and second magnetic sensors, such that a transfer factor of the first magnetic sensor and a transfer factor of the second magnetic sensor are influenced by the control signal, wherein the control element comprises,a voltage-controlled current source operably connected to the input of the control element and operable to generate a variable regulating current component based upon the variable regulating component from the digital to analog converter;
a constant regulating current source operable to output a constant regulating current component; and
a second summing element operably connected to the output of the voltage-controlled current source and the constant regulating current source and operable to generate the control signal based upon the sum of the variable regulating current component and the constant regulating current component.
2 Assignments
0 Petitions
Accused Products
Abstract
The invention relates to a circuit configuration for compensating for the changes in a transfer ratio of a magnetic field sensor arrangement. According to one embodiment of the invention, a control loop for effecting this compensation is provided in the form of an integrated circuit whereby the change in transfer ratio is compensated by means of a control signal variation. This circuit configuration includes a series configuration of an A/D converter, a digital controller and a D/A converter exhibiting high precision and high control speed. A control that is significantly more precise and faster than that of the prior art is achieved by virtue of the fact that only a variable portion of regulating variables is fed through the digital controller after which a constant portion of regulating variables for the actual regulating variable used for compensation is added.
34 Citations
9 Claims
-
1. A circuit arrangement for the compensation of changes of a transfer factor of a magnetic field sensor arrangement wherein the magnetic field sensor arrangement comprises an auxiliary signal generator, a voltage-current transducer and a coil arrangement for producing an first and a second auxiliary magnetic field which are superimposed upon a primary magnetic field to be measured by a first and second magnetic sensor, the magnetic field sensor arrangement further comprising a first summing element for determining a component of an output voltage of the first and second magnetic sensors produced by the auxiliary magnetic fields, the magnetic field sensor arrangement further comprising a correlator that provides a correlator output signal based upon the auxiliary magnetic fields voltage component and the output of the auxiliary signal generator, the circuit arrangement comprising:
an integrated circuit arrangement with a first analog to digital converter with an input operably connected to the output of the correlator and operable to output a digital correlator signal based upon the correlator output signal, a digital regulator with an input operably connected in series with the output of the first analog to digital converter and operable to generate a variable digital regulating signal based upon the digital correlator signal, a digital to analog converter with an input operably connected in series with the output of the digital regulator and operable to output a variable regulating component based upon the output of the digital regulator, and a control element with an input operably connected in series with the output of the digital to analog converter, and operable to output a control signal based upon a summation of the variable regulating component from the digital to analog converter and a constant regulating component, wherein the output of the control element is operably connected to the first and second magnetic sensors, such that a transfer factor of the first magnetic sensor and a transfer factor of the second magnetic sensor are influenced by the control signal, wherein the control element comprises, a voltage-controlled current source operably connected to the input of the control element and operable to generate a variable regulating current component based upon the variable regulating component from the digital to analog converter; a constant regulating current source operable to output a constant regulating current component; and a second summing element operably connected to the output of the voltage-controlled current source and the constant regulating current source and operable to generate the control signal based upon the sum of the variable regulating current component and the constant regulating current component. - View Dependent Claims (2, 3)
-
4. A circuit arrangement for the compensation of changes of a transfer factor of a magnetic field sensor arrangement wherein the magnetic field sensor arrangement comprises an auxiliary signal generator, a voltage-current transducer and a coil arrangement for producing an first and a second auxiliary magnetic field which are superimposed upon a primary magnetic field to be measured by a first and second magnetic sensor, the magnetic field sensor arrangement further comprising a first summing element for determining a component of an output voltage of the first and second magnetic sensors produced by the auxiliary magnetic fields, the magnetic field sensor arrangement further comprising a correlator that provides a correlator output signal based upon the auxiliary magnetic fields voltage component and the output of the auxiliary signal generator the circuit arrangement comprising:
-
an integrated circuit arrangement with a first analog to digital converter with an input operably connected to the output of the correlator and operable to output a digital correlator signal based upon the correlator output signal, a digital regulator with an input operably connected in series with the output of the first analog to digital converter and operable to generate a variable digital regulating signal based upon the digital correlator signal, a digital to analog converter with an input operably connected in series with the output of the digital regulator and operable to output a variable regulating component based upon the output of the digital regulator, and a control element with an input operably connected in series with the output of the digital to analog converter, and operable to output a control signal based upon a summation of the variable regulating component from the digital to analog converter and a constant regulating component, wherein, the magnetic field sensor arrangement further comprises a third summing element operably connected to the outputs of the first and second magnetic sensors and operable to sum the outputs of the first and second magnetic sensors to generate an output voltage component based upon the primary magnetic field; and the integrated circuit further comprises a second analog to digital converter with an input operably connected to the output of the third summing element and operable to generate a digital output voltage component based upon the primary magnetic field output voltage component; and the output of the control element is operably connected to the first analog to digital converter and the second analog to digital converter such that the transfer factor of the first magnetic sensor and the transfer factor of the second magnetic sensor are indirectly compensated for by the control signal. - View Dependent Claims (5, 6, 7, 8, 9)
-
Specification