Current sensors

What is claimed is: 1. A current sensor for sensing current flow in a conductor comprising: a semiconductor die; at least one magnetic field sensor element arranged on the semiconductor die and sensitive to a first magnetic field component of a magnetic field induced by the current flow in the conductor; at least two magnetic field sensor elements arranged on the semiconductor die and sensitive to a second magnetic field component of the magnetic field induced by the current flow in the conductor, the second magnetic field component being perpendicular to the first magnetic field component; and circuitry coupled to the at least one magnetic field sensor elements sensitive to the first and second magnetic field components respectively, and configured to determine the current flow in the conductor from the first magnetic field component and the second magnetic field component; wherein the at least one magnetic field sensor element sensitive to the first magnetic field component is disposed between the two magnetic field sensor elements sensitive to the second magnetic field component; wherein the circuitry is further configured to determine the current flow in the conductor from a difference in the second magnetic field component at the two magnetic field sensor elements sensitive to the second magnetic field component and a ratio of the difference to the first magnetic field component at the at least one first magnetic field sensor element sensitive to the first magnetic field component, wherein the first magnetic field component and the second magnetic field component is induced by the current flow in the conductor. 2. The current sensor of claim 1 , wherein the circuitry is configured to determine the current flow in the conductor from the second magnetic field component and a ratio of the second magnetic field component to the first magnetic field component. 3. The current sensor of claim 2 , wherein the ratio is a calibration term to account for position tolerances between the current sensor and the conductor. 4. The current sensor of claim 1 , wherein a symmetry center of the magnetic field sensor elements nominally corresponds with a symmetry center of the conductor. 5. The current sensor of claim 1 , wherein the second magnetic field component is in a direction in which the magnetic field sensor elements are spaced apart from the conductor and the first magnetic field component is in a further direction in which the magnetic field sensor elements are spaced apart from one another. 6. A method comprising: sensing, via a current sensor with at least one sensor element sensitive to a first magnetic field component, the first magnetic field component of a magnetic field related to a current flow in a conductor; sensing, via the current sensor with at least two sensor elements sensitive to a second magnetic field component, the second magnetic field component of the magnetic field related to the current flow, the second magnetic field component being perpendicular to the first magnetic field component; determining the current flow from the first magnetic field component and the second magnetic field component; determining a difference in magnetic field components sensed at the at least two sensor elements sensitive to the second magnetic field component; determining a ratio of the difference to the first magnetic field component; and estimating the current flow from the second magnetic field component and the ratio of the difference to the first magnetic field component. 7. The method of claim 6 , further comprising arranging the sensor elements on a semiconductor die of the current sensor. 8. The method of claim 7 , further comprising arranging the current sensor relative to the conductor. 9. The method of claim 8 , wherein the ratio accounts for position tolerances between the current sensor and the conductor. 10. The method of claim 9 , further comprising providing a signal when a position tolerance limit is exceeded. 11. The method of claim 6 , further comprising: installing the current sensor and the conductor; and determining the ratio. 12. The method of claim 11 , further comprising periodically re-determining the ratio. 13. A current sensing system comprising: a conductor; a semiconductor die disposed proximate and spaced apart from the conductor; at least one first magnetic field sensor element sensitive to a first magnetic field component of a magnetic field related to a current in the conductor and coupled to the semiconductor die; at least one second magnetic field sensor element sensitive to a second magnetic field component perpendicular to the first magnetic field component of the magnetic field related to the current in the conductor and coupled to the semiconductor die; and circuitry coupled to the sensor elements and configured to determine the current in the conductor from the first magnetic field component sensed by the at least one first magnetic field sensor element and a ratio of the first magnetic field component sensed by the at least one first magnetic field sensor element to the second magnetic field component sensed by the at least one second magnetic field sensor element; wherein the first magnetic field component used in the ratio comprises a difference in magnetic field components sensed at first and second ones of the at least one first magnetic field sensor element sensitive to the first magnetic field component. 14. The current sensing system of claim 13 , wherein the ratio calibrates the current sensing system according to relative positions of the magnetic field sensor elements and the conductor. 15. A current sensor for sensing current flow in a conductor comprising: a semiconductor die; at least one magnetic field sensor element arranged on the semiconductor die and sensitive to a first magnetic field component of a magnetic field induced by the current flow in the conductor; at least one magnetic field sensor element arranged on the semiconductor die and sensitive to a second magnetic field component perpendicular to the first magnetic field component of the magnetic field; and circuitry coupled to the at least one magnetic field sensor elements sensitive to the first and second magnetic field components respectively, configured to determine a ratio of the first magnetic field component to the second magnetic field component, and determine a distance between the at least one magnetic field sensor elements sensitive to the first and second magnetic field components and the conductor from the ratio; a calibration wire configured to utilize the distance or the ratio to calibrate the current sensor according to relative positions of the at least one magnetic field sensor elements sensitive to the first and second magnetic field components, respectively, and the conductor. 16. A current sensor comprising: a conductor configured to conduct current inducing a magnetic field related to the current; a first sensor system configured to detect a first magnetic field component of the magnetic field; and a second sensor system comprising at least two sensor elements configured to detect a second magnetic field component of the magnetic field, the second magnetic field component being perpendicular to the first magnetic field component; and circuitry configured to determine a difference in magnetic field components sensed at the at least two sensor elements, respectively, determine a ratio of the difference to the first magnetic field component, and estimate the current from the second magnetic field component and the ratio of the difference t