Electronic device having electronic compass with demagnetizing coil and annular flux concentrating yokes

What is claimed is: 1. An electronic device, comprising: an electronic compass having thin-film magnetoresistance sensors and magnetic flux concentrators; a demagnetization coil; and control circuitry that applies current to the demagnetization coil to produce a magnetic field that demagnetizes the magnetic flux concentrators. 2. The electronic device defined in claim 1 wherein the current comprises an alternating current signal and wherein the control circuitry applies the alternating current signal to produce an alternating current magnetic field that demagnetizes the magnetic flux concentrators and thereby reduces offset in the electronic compass. 3. The electronic device defined in claim 2 wherein the control circuitry is configured to apply a direct current signal to the demagnetization coil. 4. The electronic device defined in claim 3 wherein the control circuitry determines magnetic sensor sensitivity levels for the thin-film magnetoresistance sensors by making magnetic field measurements with the electronic compass while the direct current signal is being applied to the demagnetization coil. 5. The electronic device defined in claim 1 wherein the demagnetization coil includes loops of metal traces on a printed circuit. 6. The electronic device defined in claim 5 wherein the electronic compass is mounted on a printed circuit that is separate from the printed circuit that includes the loops of metal traces. 7. The electronic device defined in claim 5 wherein the electronic compass is mounted on the printed circuit. 8. The electronic device defined in claim 7 wherein the loops of metal traces surround the electronic compass. 9. The electronic device defined in claim 7 wherein the electronic compass is located outside of the loops of metal traces. 10. The electronic device defined in claim 7 wherein the electronic compass overlaps the loops of metal traces. 11. The electronic device defined in claim 1 wherein the demagnetization coil comprises multiple layers of metal traces on a printed circuit and wherein each layer of metal traces includes loops of metal traces. 12. The electronic device defined in claim 1 wherein the demagnetization coil comprises a packaged inductor and wherein the electronic compass and the packaged inductor are mounted on a printed circuit board. 13. The electronic compass defined in claim 1 wherein the magnetic flux concentrators include at least one ring-shaped magnetic flux concentrator. 14. The electronic device defined in claim 13 wherein the ring-shaped magnetic flux concentrator includes at least first and second magnetic layers separated by a non-magnetic layer. 15. A magnetic sensor, comprising: a substrate; a strip of thin-film magnetoresistance sensor structures extending along an axis on the substrate and having a series of active areas; and a series of magnetic flux concentrating yokes staggered on alternating sides of the strip of thin-film magnetoresistance sensor structures to direct magnetic flux through the active areas, wherein each yoke is formed from an elongated ring of magnetic material. 16. The magnetic sensor defined in claim 15 wherein the magnetic flux concentrating yokes each include multiple stacked magnetic layers separated by a non-magnetic layer. 17. The magnetic sensor defined in claim 15 wherein the strip of thin-film magnetoresistance sensor structures comprises a strip of thin-film giant magnetoresistance sensor structures. 18. A portable electronic device, comprising: a printed circuit; an electronic compass on the printed circuit that has a magnetic sensor and a magnetic flux concentrator that directs magnetic flux through the magnetic sensor; and a coil of metal traces in the printed circuit through which a signal is passed to reduce leakage flux in the magnetic sensor from remnant magnetization in the magnetic flux concentrator. 19. The portable electronic device defined in claim 18 further comprising control circuitry that passes a direct current signal through the coil to make a magnetic sensor sensitivity level measurement on the magnetic sensor. 20. The portable electronic device defined in claim 18 further comprising a display. 21. Apparatus, comprising: a substrate; an elongated ring-shaped magnetic flux concentrating yoke on the substrate; first and second elongated thin-film magnetoresistance sensors on the substrate extending along opposing sides of the elongated ring-shaped magnetic flux concentrating yoke. 22. The apparatus defined in claim 21 further comprising: a demagnetizing coil on the substrate. 23. The apparatus defined in claim 22 wherein the elongated ring-shaped magnetic flux concentrating yoke comprises at least first and second magnetic layers separated by a non-magnetic layer. 24. The apparatus defined in claim 23 wherein the first and second magnetic layers each have a thickness of less than 2 microns. 25. A method of operating an electronic device having an electronic compass with magnetic sensors, comprising: with control circuitry in the electronic device, determining whether magnetic sensor sensitivity updates are desired for the magnetic sensors of the electronic compass; and in response to determining that magnetic sensor sensitivity updates are desired, using the control circuitry to apply a direct current (DC) current to a coil in the electronic device and making calibrating magnetic sensor measurements with the magnetic sensors while the DC current is being applied. 26. The method defined in claim 25 further comprising: demagnetizing magnetic flux concentrators in the magnetic sensors by applying a demagnetizing current to the coil.