Systems and methods for detection of magnetic fields

What is claimed is: 1. An electronic circuit comprising: a first magnetic field detection circuit that produces a first signal indicating a strength of a magnetic field; a second magnetic field detection circuit that selectively receives a power signal and produces a second signal indicating the strength of the magnetic field, wherein the second signal provides a more accurate indication of the strength of the magnetic field than the first signal; and a control circuit configured to determine whether the first signal indicates a change greater than a predetermined amount in the strength of the magnetic field and to couple the power signal to the second magnetic field detection circuit in response to a determination that the strength of the magnetic field has changed by greater than the predetermined amount; an output circuit that provides, as an output of the electronic circuit, an output signal that is based only on the second signal produced by the second magnetic field detection circuit while the second magnetic field detection circuit is receiving power. 2. The electronic circuit of claim 1 wherein the first magnetic field detection circuit consumes less power than the second magnetic field detection circuit. 3. The electronic circuit of claim 1 further comprising an output circuit that provides, as an output of the electronic circuit, an output signal based on the second signal from the second magnetic field detection circuit, the output signal indicating the strength of the magnetic field. 4. The electronic circuit of claim 3 wherein the output signal tracks the second signal while the second magnetic field detection circuit is receiving power and wherein the output circuit comprises a hold circuit configured to hold a previous value of the output signal while the second magnetic field detection circuit is not receiving power. 5. The electronic circuit of claim 1 further comprising an output circuit that provides, as an output of the electronic circuit, an output signal based on the second signal from the second magnetic field detection circuit, the output signal comprising transitions indicating when the magnitude of the second signal crosses a switching threshold. 6. The electronic circuit of claim 1 wherein the first magnetic field detection circuit, the second magnetic field detection circuit, or both, comprises one or more of: a magnetoresistance element, a giant magnetoresistance element, a Hall effect element, a CVH element, an AMR element, a GMR bridge, and AMR bridge or a combination thereof. 7. The electronic circuit of claim 1 wherein the control circuit is configured to determine whether the second signal has reached a steady state or a peak and to decouple the power signal from the second magnetic field detection circuit in response to a determination that the second signal has reached the steady state or the peak. 8. The electronic circuit of claim 7 wherein the control circuit determines whether the second signal has reached a steady state by determining whether the second signal has changed during a predetermined period of time. 9. The electronic circuit of claim 5 wherein the control circuit is configured to decouple the power signal from the second magnetic field detection circuit in response to a transition of the output signal. 10. A method comprising: producing, with a first magnetic field detection circuit comprising a first circuit path, a first signal indicating a strength of a magnetic field; determining whether the first signal indicates a change in the magnetic field greater than a predetermined amount; producing, with a second magnetic field detection circuit comprising a second circuit path, a second signal indicating the strength of the magnetic field, wherein the second signal provides a more accurate indication of the strength of the magnetic field than the first signal; and providing a power signal to the second magnetic field detection circuit if the first signal indicates a change in the magnetic field greater than the predetermined amount; wherein the first circuit path comprises one or more circuit elements, the second circuit path comprises one or more circuit elements, and the circuit elements of the first circuit path are different elements than the circuit elements of the second circuit path. 11. The method of claim 10 wherein the first magnetic field detection circuit consumes less power than the second magnetic field detection circuit. 12. The method of claim 10 further comprising providing an output signal based on the second signal from the second magnetic field detection circuit, the output signal indicating the strength of the magnetic field. 13. The method of claim 12 wherein the output signal tracks the second signal while the second magnetic field detection circuit is receiving power and is provided by a previous value of the output signal while the second circuit is not receiving power. 14. The method of claim 10 further comprising providing an output signal based on the second signal from the second magnetic field detection circuit, the output signal comprising transitions indicating when the magnitude of the second signal crosses a switching threshold. 15. The method of claim 10 wherein the first magnetic field detection circuit, the second magnetic field detection circuit, or both, comprises one or more of: a magnetoresistance element, a giant magnetoresistance element, a Hall effect element, a CVH element, an AMR element, a GMR bridge, and AMR bridge, or a combination thereof. 16. The method of claim 10 further comprising determining whether the second signal has reached a steady state or a peak and decoupling the power signal from the second magnetic field detection circuit in response to a determination that the second signal has reached the steady state or the peak. 17. The method of claim 16 further comprising determining whether the second signal has reached the steady state by determining whether the second signal has changed during a predetermined period of time. 18. The method of claim 14 further comprising decoupling the power signal from the second magnetic field detection circuit in response to a transition of the output signal. 19. An electronic circuit comprising: a first magnetic field detection circuit comprising a first circuit path that produces a first signal indicating a strength of a magnetic field; a second magnetic field detection circuit comprising a second circuit path that selectively receives a power signal and produces a second signal indicating the strength of the magnetic field, wherein the second signal provides a more accurate indication of the strength of the magnetic field than the first signal; and a control circuit configured to couple the power signal to the second magnetic field detection circuit in response to the first signal crossing either a high threshold or a low threshold; wherein the first circuit path comprises one or more circuit elements, the second circuit path comprises one or more circuit elements, and the circuit elements of the first circuit path are different elements than the circuit elements of the second circuit path. 20. The electronic circuit of claim 19 further comprising one or more threshold generator circuits to establish the high threshold and the low threshold. 21. The electronic circuit of claim 20 wherein the one or more threshold generator circuits establish the high threshold and/or the low threshold during operation of the electronic circuit.