Method and apparatus for magnetic sensor producing a changing magnetic field

What is claimed is: 1. A magnetic field sensor comprising: a semiconductor substrate; a coil, supported by the semiconductor substrate, having a first terminal winding and a second opposite terminal winding, the coil configured to provide a changing magnetic field having a magnetic field vector with a direction parallel to a surface of the semiconductor substrate on which the coil is supported in response to a changing current in the coil; and a plurality of magnetic field sensing elements arranged in a bridge configuration and supported by the substrate to detect a target by detecting variations in the changing magnetic field caused by the target; wherein the target is physically separate from the semiconductor substrate; and wherein a first pair of magnetic field sensing elements of the bridge configuration is positioned on the semiconductor substrate adjacent to the first terminal winding of the coil and a second pair of magnetic field sensing elements of the bridge configuration is positioned on the semiconductor substrate adjacent to the second terminal winding of the coil to increase a sensitivity of the magnetic field sensor to a target located in line with the magnetic field vector. 2. The magnetic field sensor of claim 1 wherein the coil is formed from at least one metal layer disposed on a surface of the substrate. 3. The magnetic field sensor of claim 1 wherein the plurality of magnetic field sensing elements comprises at least one giant magnetoresistive (GMR) element. 4. The magnetic field sensor of claim 1 wherein the plurality of magnetic field sensing elements comprises at least one Hall effect element. 5. The magnetic field sensor of claim 1 further including a current source coupled to the coil. 6. The magnetic field sensor of claim 1 further including a pulsed or transient current source coupled to the coil. 7. The magnetic field sensor of claim 1 wherein the coil is positioned above or below the substrate. 8. The magnetic field sensor of claim 1 wherein the coil is a separately formed element included in a same package with the substrate. 9. The magnetic field sensor of claim 1 wherein the direction of the changing magnetic field is a direction toward or away from the target. 10. The magnetic field sensor of claim 1 wherein the variations in the changing magnetic field are caused by movement of the target relative to the magnetic field sensor in the presence of the magnetic field. 11. The magnetic field sensor of claim 1 wherein the first pair of magnetic field sensing elements, the coil, and the first and second terminal windings of the coil are arranged in a line. 12. A method of detecting a magnetic field by a magnetic field sensor comprising: providing a magnetic field sensor having a semiconductor substrate; driving a changing current through a coil so that the coil generates a changing magnetic field having magnetic field vector with a direction parallel to a surface of the semiconductor substrate on which the coil is supported, the coil having a first terminal winding and a second, opposite terminal winding; and detecting, with a plurality of magnetic field sensing elements supported by the substrate, a target by detecting variations in the changing magnetic field caused by the target; wherein the target is physically separate from the semiconductor substrate; and wherein the plurality of magnetic field sensing elements are positioned in a bridge configuration, a first pair of magnetic field sensing elements of the bridge configuration is positioned adjacent to the first terminal winding of the coil and a second pair of magnetic field sensing elements of the bridge is positioned at adjacent to the second terminal winding of the coil to increase a sensitivity of the magnetic field sensor to a target located in line with the magnetic field vector. 13. The method of claim 12 further comprising forming the coil from one or more metal layers disposed on a surface of the substrate. 14. The method of claim 12 wherein the plurality of magnetic field sensing elements comprises at least one GMR element. 15. The method of claim 12 wherein the plurality of magnetic field sensing elements comprises at least one Hall effect element. 16. The method of claim 12 further comprising supplying a pulsed or transient current to the coil. 17. The method of claim 12 further comprising attaching the coil to a top or bottom surface of the substrate. 18. The method of claim 12 further comprising providing the coil as a separately formed element within a same package as the substrate. 19. A magnetic field sensor comprising: a semiconductor substrate; a coil configured to provide a changing magnetic field having a magnetic field vector with a direction parallel to a surface of the semiconductor substrate on which the coil is supported in response to a changing current in the coil, the coil having a first terminal winding and a second, opposite terminal winding; and a magnetoresistive transducer comprising a plurality of giant magnetoresistive (GMR) elements in a bridge configuration supported by the substrate to detect a target by detecting variations in the changing magnetic field caused by the target; wherein a first pair of GMR elements of the bridge configuration is positioned adjacent to the first terminal winding of the coil and a second pair of GMR elements of the bridge configuration is positioned adjacent to the second terminal winding of the coil to increase a sensitivity of the magnetic field sensor to a target located in line with the magnetic field vector; wherein the target is physically separate from the semiconductor substrate. 20. A method of detecting a magnetic field comprising: providing a magnetic field sensor having a semiconductor substrate; driving a changing current through a coil so that the coil generates a changing magnetic field having a magnetic field vector with a direction parallel to a surface of the semiconductor substrate on which the coil is supported; detecting, with a magnetic field sensing element comprising a plurality of giant magnetoresistive (GMR) elements forming a bridge configuration supported by the substrate, a target by sensing variations in the changing magnetic field caused by the target; and positioning a first pair of GMR elements of the bridge adjacent to a first terminal winding of the coil and positioning a second pair of GMR elements of the bridge adjacent to a second, opposing terminal winding of the coil to increase a sensitivity of the magnetic field sensor to a target located in line with the magnetic field vector; wherein the target is physically separate from the semiconductor substrate.