Stray-field robust, twist-insensitive magnetic speed sensors

What is claimed is: 1. A magnetic sensor module configured to detect a rotation of an object, comprising: an axially polarized back bias magnet that generates a radially symmetric bias magnetic field about a center axis of the axially polarized back bias magnet in a sensor plane; a magnetic sensor including a plurality of sensor elements arranged in the sensor plane of the magnetic sensor and are configured to generate measurement values in response to sensing the radially symmetric bias magnetic field, wherein the plurality of sensor elements are arranged on a circumference of a circle at substantially equidistant angles about the center axis of the axially polarized back bias magnet, wherein plurality of sensor elements are grouped into a plurality of pairs, wherein first sensor elements of a first pair of sensor elements are arranged opposite to each other on the circumference of the circle and have a first sensitivity-axis sensitive to a first in-plane magnetic field component of the radially symmetric bias magnetic field, and wherein second sensor elements of a second pair of sensor elements are arranged opposite to each other on the circumference of the circle and have a second sensitivity-axis sensitive to a second in-plane magnetic field component of the radially symmetric bias magnetic field. 2. The magnetic sensor module of claim 1 , wherein the first sensitivity-axis is perpendicular to the second sensitivity-axis. 3. The magnetic sensor module of claim 1 , wherein the first sensitivity-axis and the second sensitivity-axis intersect with the center axis of the axially polarized back bias magnet and are perpendicular thereto. 4. The magnetic sensor module of claim 1 , wherein each of the plurality of sensor elements are exposed to a substantially same working point of the radially symmetric bias magnetic field. 5. The magnetic sensor module of claim 1 , wherein: the measurement values generated by the first sensor elements change upon detecting a change in a magnetic field strength of the radially symmetric bias magnetic field in a first direction of the first sensitivity-axis, and the measurement values generated by the second sensor elements change upon detecting a change in the magnetic field strength of the radially symmetric bias magnetic field in a second direction of the second sensitivity-axis. 6. The magnetic sensor module of claim 1 , wherein the axially polarized back bias magnet is configured such that the first and the second in-plane magnetic field components change according to a rotation of a rotating member that has alternating first portions and second portions, wherein the first and the second in-plane magnetic field components are stronger when proximate to one of the first portions and weaker when proximate to one of the second portions. 7. The magnetic sensor module of claim 6 , wherein the rotating member is a toothed wheel, and the first portions are notches and the second portions are teeth of the toothed wheel. 8. The magnetic sensor module of claim 6 , wherein the radially symmetric bias magnetic field is zero at the center axis of the axially polarized back bias magnet and increases in a radial direction in the sensor plane from the center axis. 9. The magnetic sensor module of claim 6 , wherein the measurement values generated by the plurality of sensor elements oscillate between maximum and minimum values based on a speed of rotation of the rotating member. 10. The magnetic sensor module of claim 6 , wherein the rotating member causes sinusoidal variations in the first and the second in-plane magnetic field components of the radially symmetric bias magnetic field as the rotating member rotates. 11. The magnetic sensor module of claim 1 , wherein the axially polarized back bias magnet is an axially polarized cylinder magnet. 12. The magnetic sensor module of claim 1 , wherein the magnetic sensor further comprises a sensor circuit configured to receive the measurement values from the plurality of sensor elements, and generate a measurement signal using a differential calculation configured to cancel out stray-fields in both a direction of the first sensitivity-axis and a direction of the second sensitivity-axis based on the received measurement values. 13. The magnetic sensor module of claim 12 , wherein the sensor circuit is configured to cancel out the stray-fields in the direction of first sensitivity-axis using the differential calculation and the received measurement values of the first pair of sensor elements, and cancel out the stray-fields in the direction of second sensitivity-axis using the differential calculation and the received measurement values of the second pair of sensor elements. 14. The magnetic sensor module of claim 12 , wherein the sensor circuit is configured to apply the differential calculation: SE OUT =SE A −SE B −( SE C −SE D ), wherein SE A and SE B correspond to the measurement values generated by first pair sensor elements, SE C and SE D correspond to the measurement values generated by the second pair of sensor elements, and SE OUT is the measurement signal. 15. The magnetic sensor module of claim 12 , wherein the sensor circuit is configured to output the measurement signal to an external device. 16. The magnetic sensor module of claim 12 , wherein the axially polarized back bias magnet is configured such that the first and the second in-plane magnetic field components change according to a rotation of a rotating member that has alternating first portions and second portions, wherein the first and the second in-plane magnetic field components are stronger when proximate to one of the first portions and weaker when proximate to one of the second portions. 17. The magnetic sensor module of claim 16 , wherein the rotating member is a toothed wheel, and the first portions are notches and the second portions are teeth of the toothed wheel. 18. The magnetic sensor module of claim 16 , wherein the measurement values generated by the plurality of sensor elements oscillate between maximum and minimum values based on a speed of rotation of the rotating member. 19. The magnetic sensor module of claim 16 , wherein the rotating member causes sinusoidal variations in the first and the second in-plane magnetic field components of the radially symmetric bias magnetic field as the rotating member rotates. 20. The magnetic sensor module of claim 16 , wherein the measurement signal generated by the sensor circuit oscillates between maximum and minimum values based on a rotational speed of the rotating member. 21. The magnetic sensor module of claim 16 , wherein a frequency of the measurement signal is proportional to a rotational speed of the rotating member. 22. The magnetic sensor module of claim 1 , wherein the magnetic sensor module is twist-insensitive about the center axis of the axially polarized back bias magnet. 23. A method of measuring a rotational speed of a rotating member by a magnetic sensor, the magnetic sensor including a plurality of sensor elements arranged in a sensor plane of the magnetic sensor and are exposed to a substantially same working point of a radially symmetric bias magnetic field produced by an axially polarized back bias magnet, the method comprising: generating measurement values by a plurality of sensor elements in response to sensing the radially symmetric bias magnetic field, wherein variations in the measurement values of the plurality of