Position sensor and method of position sensing

The invention claimed is: 1. A method of determining a position of a sensor device relative to an external magnetic field, the method comprising the steps of: applying or adjusting a first current to a first electrical conductor to generate a first internal magnetic field that will superimpose with the external magnetic field so as to form a first total magnetic field; measuring a component of the first total magnetic field at a first location using a first magnetic sensing element; applying or adjusting a second current to a second electrical conductor different from the first electrical conductor to generate a second internal magnetic field that will superimpose with the external magnetic field so as to form a second total magnetic field; measuring a component of the second total magnetic field at a second location using a second magnetic sensing element different from the first magnetic sensing element; calculating the position of said sensor device as a function of at least the first and the second current or as a function of the first and the second current and taking into account-the measured component of the first total magnetic field at the first location, and/or the measured component of the second total magnetic field at the second location. 2. The method according to claim 1 , comprising an initial step of determining or updating a value of said first current by: i) measuring said first magnetic field component at said first location; ii) determining said first current value based on the measured first magnetic field component so that an amplitude of the component of the total magnetic field is smaller than an amplitude of the external magnetic field alone; and/or determining or updating a value of said second current by: i) measuring said second magnetic field component at said second location; ii) determining said second current value based on the measured second magnetic field component so that an amplitude of the component of the total magnetic field is smaller than an amplitude of the external magnetic field alone. 3. The method according to claim 1 , comprising measuring said first current and/or said second current and exploiting the measured first and/or second current when calculating said position. 4. The method according to claim 1 , further comprising: adjusting the first current based on the measured component of the first total magnetic field for reducing the amplitude of the component of the first total magnetic field; adjusting the second current based on the measured component of the second total magnetic field for reducing the amplitude of the component of the second total magnetic field; measuring again the component of the first total magnetic field at said first location using the first magnetic sensing element; measuring again a component of the second total magnetic field at said second location using the second magnetic sensing element. 5. The method according to claim 4 , wherein the steps of adjusting and measuring are repeated until the amplitude of the components of the first and second total magnetic field measured at said first and second location are both smaller in absolute value than a predefined threshold, the predefined threshold being smaller than 250 mT. 6. The method according to claim 3 , wherein the steps of adjusting and measuring are repeated a number of times. 7. The method according to claim 1 , wherein the step of adjusting the first and/or the second current comprises testing whether the amplitude of the component of the first and second total magnetic field are both smaller in absolute value than a predefined threshold, the predefined threshold being smaller than 250 mT, and if the outcome of the test is false, adjusting at least one of the first and second current and if the outcome of the test is true, maintaining the first and second current. 8. The method according to claim 7 , wherein adjusting the current means increasing or decreasing with a predetermined amount, depending on whether the component of the measured total magnetic field is larger than or smaller than zero; or wherein adjusting the current means increasing or decreasing with an amount selected from a limited set of predetermined amounts, depending on whether the component of the measured total magnetic field is larger than or smaller than a set of predefined threshold values; or wherein adjusting the current means applying a process control loop selected from the group consisting of a proportional (P) control loop, a proportional integrating (PI) control loop, a proportional differentiating (PD) control loop, and a proportional differentiating integrating (PID) control loop. 9. The method according to claim 1 , wherein the external magnetic field is created by a permanent magnet; and/or wherein measuring the first and second magnetic field components comprises using a first and a second Hall element; and/or wherein measuring the magnetic field component of the total magnetic field comprises using a first and a second magneto-resistive element; and/or wherein measuring the magnetic field component of the total magnetic field comprises using a first and a second Hall element, also using a first and a second magneto-resistive element having a different range than the first and second Hall element, and selecting or combining the measurement from the first Hall element and the first magneto-resistive element, and selecting or combining the measurement from the second Hall element and the second magneto-resistive element; and/or wherein calculating the position comprises using one or more goniometric functions. 10. A sensor device for determining a position of the sensor device relative to an external magnetic field, the sensor device comprising: at least a first magnetic sensing element adapted for sensing a magnetic field component at a first location, and a second magnetic sensing element for sensing a magnetic field component at a second location different from the first location; a readout-circuit connected to said first and second magnetic sensing element for obtaining a first and second signal indicative of said first and second magnetic field component; at least a first and a second electrical conductor or a first and a second coil; a current generator circuit connected to said first and second electrical conductor and adapted for causing at least a first current to flow in the first electrical conductor and for causing a second current to flow in the second electrical conductor, thereby generating an internal magnetic field that will superimpose with the external magnetic field so to form a combined magnetic field; a controller connected to said readout-circuit and to said current generator circuit, and adapted for performing the method according to claim 1 . 11. The sensor device of claim 10 , wherein the first and second sensing element is a first and a second Hall element; or wherein the first and second sensing element is a first and a second magneto-resistive element; or wherein the first and second sensing element is a first and a second Hall element, and the sensor device further comprises a third and fourth sensing element in the form of magneto-resistive elements, arranged on top of each other. 12. The sensor device of claim 10 , wherein the current generator circuit comprises at least one current Digital-to-Analog converter (DAC), and wherein the step of calculating the position is based on signals obtained from the signal provided to the current DAC and optionally also based on signals obtained from the readout circuit; or wherein the sensor device further comprises at least one reference resisto