Small size and fully integrated power converter with magnetics on chip

What is claimed is: 1. A microfabricated inductor with a magnetic core for an integrated circuit, comprising: a semiconductor die; a multi-element magnetic core formed on a surface of the semiconductor die and comprising at least three magnetic core bars, there being a plurality of voids disposed between adjacent magnetic core bars of the at least three magnetic core bars; and a conductive winding coiled around the multi-element magnetic core such that the at least three magnetic core bars are all within a single loop of the conductive winding. 2. The microfabricated inductor of claim 1 , wherein the at least three magnetic core bars are parallel to each other. 3. The microfabricated inductor of claim 1 , wherein at least one void of the plurality of voids is filled with a dielectric material. 4. The microfabricated inductor of claim 1 , wherein the surface of the semiconductor die is a first surface, and the microfabricated inductor further comprises a flux conductor formed on a second surface of the semiconductor die, wherein the flux conductor is magnetically coupled to the multi-element magnetic core. 5. The microfabricated inductor of claim 1 , wherein the multi-element magnetic core further comprises a plurality of magnetic core portions connecting the at least three magnetic core bars to each other. 6. The microfabricated inductor of claim 1 , wherein a first magnetic core bar of the at least three magnetic core bars comprises a single solid layer of magnetic material. 7. The microfabricated inductor of claim 1 , wherein the multi-element magnetic core comprises a magnetic material having a hard axis parallel with a direction of a magnetic flux produced in the at least three magnetic core bars. 8. The microfabricated inductor of claim 1 , further comprising active circuit components formed on the semiconductor die and coupled to the multi-element magnetic core. 9. The microfabricated inductor of claim 8 , wherein the active circuit components include at least one transistor. 10. A microfabricated converter circuit having an inductor with a magnetic core, comprising: a semiconductor die in which at least one component of the converter circuit is formed; a multi-element magnetic core, having first and second magnetic core elements, formed on a surface of the semiconductor die and comprising a magnetic material having a hard axis; and a conductive winding coiled around the first and second magnetic core elements, coupled to the at least one component of the converter circuit, and configured to produce a magnetic flux in the first magnetic core element parallel to the hard axis. 11. The microfabricated converter circuit of claim 10 , wherein at least one of the first or second magnetic core elements is formed from a single solid layer of the magnetic material. 12. The microfabricated converter circuit of claim 10 , wherein the multi-element magnetic core further comprises one or more magnetic core portions connecting the first magnetic core element with the second magnetic core element, the one or more magnetic core portions extending along a second direction different from the first direction and parallel to an easy axis of the magnetic material. 13. A microfabricated inductor with a magnetic core for an integrated circuit, comprising: a semiconductor die; a multi-element magnetic core formed on a surface of the semiconductor die and comprising at least three magnetic core bars and a plurality of voids disposed between adjacent magnetic core bars of the at least three magnetic core bars; and a conductive winding coiled around the multi-element magnetic core such that the at least three magnetic core bars are all within a single loop of the conductive winding; wherein the conductive winding comprises a first plurality of conductive traces adjacent a first side of the multi-element magnetic core, a second plurality of conductive traces adjacent a second side, opposite the first side, of the multi-element magnetic core, and a plurality of conductive posts connecting the first and second pluralities of conductive traces. 14. The microfabricated inductor of claim 13 , wherein at least one magnetic core bar of the at least three magnetic core bars comprises a single solid layer of magnetic material. 15. The microfabricated inductor of claim 13 , wherein the plurality of conductive posts are elongated along a direction perpendicular to the surface of the semiconductor die on which the multi-element magnetic core is formed. 16. The microfabricated inductor of claim 13 , wherein at least one void of the plurality of voids is filled with a dielectric material. 17. A microfabricated converter circuit having an inductor with a magnetic core, comprising: a semiconductor die in which at least one component of the converter circuit is formed; and means for conducting a continuous current at least partially between first and second separate magnetic core elements and a surface of the semiconductor die, the first and second magnetic core elements occupying different areas of the semiconductor die; wherein the first magnetic core element and the second magnetic core element include a magnetic material having a hard axis parallel with directions of portions of first and second magnetic fluxes produced in the first and second magnetic core elements. 18. The microfabricated converter circuit of claim 17 , wherein the first and second magnetic core elements occupy parallel first and second areas of the semiconductor die. 19. The microfabricated converter circuit of claim 17 , wherein the means for conducting produces the first and second magnetic fluxes that at least partially cancel each other outside of the first and second magnetic core elements. 20. The microfabricated converter circuit of claim 17 , wherein at least one of the first or second magnetic core elements includes a plurality of solid layers of the magnetic material separated by a plurality of dielectric spacers. 21. A microfabricated inductor with a magnetic core for an integrated circuit, comprising: a semiconductor die; a multi-element magnetic core formed on a surface of the semiconductor die and comprising at least three magnetic core bars and a plurality of voids disposed between adjacent magnetic core bars of the at least three magnetic core bars, wherein at least one void of the plurality of voids is configured to separate a first magnetic core bar of the at least three magnetic core bars from a second magnetic core bar of the at least three magnetic core bars by a distance that is between 1 μm and 10 μm; and a conductive winding coiled around the magnetic core such that the at least three magnetic core bars are all within a single loop of the conductive winding. 22. The microfabricated inductor of claim 21 , wherein at least one void of the plurality of voids is filled with a dielectric material. 23. A method of operating a converter circuit having an inductor with a magnetic core, comprising: generating an input signal using a microfabricated converter component disposed in a semiconductor die; and converting the input signal to an output signal on the semiconductor die at least in part by conducting a current in an inductor formed on a surface of the semiconductor die, the inductor including a continuous conductive winding formed at least partially between first and second separate magnetic core elements and the surface of the semiconductor die, the first and second magnetic core elements