Incremental speed sensor with redundant sensor elements

What is claimed is: 1. A magnetic sensor module configured to measure a magnetic field whose magnitude oscillates between a first extrema and a second extrema, the magnetic sensor module comprising: a magnetic sensor including a plurality of sensor elements configured to generate measurement values in response to sensing the magnetic field, wherein the plurality of sensor elements are grouped into a first shifted pair, a central pair, and a second shifted pair; and a sensor circuit configured to receive the measurement values from the plurality of sensor elements, generate a first shifted differential measurement signal based on the measurement values received from the first shifted pair, a central differential measurement signal based on the measurement values received from the central pair, and a second shifted differential measurement signal based on the measurement values received from the second shifted pair, and generate an output signal based on detecting the first shifted differential measurement signal, the central differential measurement signal, and the second shifted differential measurement signal crossing at least one threshold. 2. The magnetic sensor module of claim 1 , wherein: the magnetic sensor module is an incremental speed sensor, and the sensor circuit is configured to modulate the output signal according to a rotation speed of an encoder, wherein the crossing of the at least one threshold by the first shifted, central and second shifted differential measurement signals depends on a rotation of the encoder. 3. The magnetic sensor module of claim 1 , wherein: sensor circuit includes at least one calibration unit configured to monitor the first extrema and the second extrema, and adjust the at least one threshold based on an average of the first extrema and the second extrema or adjust an offset applied to one or more of the first shifted differential measurement signal, the central differential measurement signal, and the second shifted differential measurement signal based on an average of the first extrema and the second extrema. 4. The magnetic sensor module of claim 1 , wherein the sensor circuit is configured to detect the crossing of the at least one threshold by the first shifted, central and second shifted differential measurement signals based on falling edge crossings or a rising edge crossings. 5. The magnetic sensor module of claim 1 , wherein: sensor circuit includes a switching mechanism configured to change a logic value of the output signal based on the oscillation of the magnetic field, and the sensor circuit is configured to arm, trigger, disarm and re-enable the switching mechanism based on the first shifted, the central and the second shifted differential measurement signals crossing the at least one threshold. 6. The magnetic sensor module of claim 1 , further comprising: a switching mechanism configured to change a logic value of the output signal based on the oscillation of the magnetic field; and a state machine configured to apply a plurality of switching rule sets that provide criteria for arming, disarming and re-enabling the switching mechanism and for changing the logic value of the output signal, wherein the criteria are based on the first shifted, the central and the second shifted differential measurement signals crossing the at least one threshold. 7. The magnetic sensor module of claim 6 , wherein: the sensor circuit is configured to detect an oscillation direction of the magnetic field, and the state machine is configured to apply a rule set from the plurality of rule sets for controlling the switching mechanism based on the detected oscillation direction. 8. The magnetic sensor module of claim 6 , wherein: the sensor circuit is configured to detect an operational state, including a valid state or a faulty state, of each of the plurality of sensor elements, and the state machine is configured to apply a rule set from the plurality of switching rule sets based on the operational state of each of the plurality of sensor elements. 9. The magnetic sensor module of claim 6 , wherein: the sensor circuit is configured to determine a validity of each of the first shifted, the central and the second shifted differential measurement signals, and the state machine is configured to apply a rule set from the plurality of switching rule sets based on the validity of each of the first shifted, the central and the second shifted differential measurement signals. 10. The magnetic sensor module of claim 9 , wherein: the sensor circuit is configured to separately determine whether each of the first shifted, the central and the second shifted differential measurement signals is valid based on crossing three thresholds over a predetermined period. 11. The magnetic sensor module of claim 9 , wherein the sensor circuit is configured to determine whether the first shifted, the central and the second shifted differential measurement signals are valid based on a relation of an amplitude of each of the first shifted, the central and the second shifted differential measurement signals compared to each other. 12. The magnetic sensor module of claim 9 , wherein the sensor circuit is configured to determine whether the first shifted, the central and the second shifted differential measurement signals are valid based on whether an offset of each of the first shifted, the central and the second shifted differential measurement signals exceeds an offset threshold. 13. The magnetic sensor module of claim 6 , wherein: the plurality of switching rule sets includes a primary rule set and a fallback rule set, and the state machine is configured to implement the primary rule set when all of the plurality of sensor elements are operating normally, and implement the fallback rule set when at least one sensor element of the plurality of sensor elements is faulty. 14. The magnetic sensor module of claim 1 , wherein: the sensor circuit includes a switching mechanism configured to change a logic value of the output signal based on the oscillation of the magnetic field, the at least one threshold includes a switching threshold, and the sensor circuit is configured to arm the switching mechanism in response to detecting the first shifted differential measurement signal crossing the switching threshold, change the logic value of the output signal and disarm the switching mechanism in response to detecting the central differential measurement signal crossing the switching threshold, and re-enable the switching mechanism in response to detecting the second shifted differential measurement signal crossing the switching threshold. 15. The magnetic sensor module of claim 14 , wherein the sensor circuit is configured to re-enable the switching mechanism on a condition that a maximum or a minimum of a valid one of the first shifted, the central or the second shifted differential measurement signals is detected. 16. The magnetic sensor module of claim 1 , wherein: the sensor circuit includes a switching mechanism configured to change a logic value of the output signal based on the oscillation of the magnetic field, the at least one threshold includes a hysteresis threshold and a switching threshold, and the sensor circuit is configured to arm the switching mechanism in response to detecting the central differential measurement signal crossing the hysteresis threshold, change the logic value of the output signal and disarm the switching mechanism in response to detecting the central differential measurement signal crossing the switching threshold, and re-enable the switc