Low profile magnetic component apparatus and methods

What is claimed is: 1. A magnetic component apparatus for an electronic circuit, comprising: a core having a core body and a core leg protruding from the core body; the core body defining a core body height; the core leg defining a core leg height, the core leg height being less than the core body height; and a conductive winding positioned about the core leg, the conductive winding defining a winding height, the conductive winding also defining a winding height offset ratio equal to the winding height divided by the core body height, the winding height offset ratio being less than about 1.1, wherein the winding height offset ratio being between about 1.0 and about 0.5. 2. A magnetic component apparatus for an electronic circuit, comprising: a core having a core body and a core leg protruding from the core body; the core body defining a core body height; the core leg defining a core leg height, the core leg height being less than the core body height; and a conductive winding positioned about the core leg, the conductive winding defining a winding height, the conductive winding also defining a winding height offset ratio equal to the winding height divided by the core body height, the winding height offset ratio being less than about 1.1, wherein the winding height offset ratio being between about 1.0 and about 0.9. 3. A magnetic component apparatus for an electronic circuit, comprising: a core having a core body and a core leg protruding from the core body; the core body defining a core body height; the core leg defining a core leg height, the core leg height being less than the core body height; a conductive winding positioned about the core leg, the conductive winding defining a winding height, the conductive winding also defining a winding height offset ratio equal to the winding height divided by the core body height, the winding height offset ratio being less than about 1.1 a bobbin structure defining an axial opening, the conductive winding disposed about the bobbin structure; and the core leg disposed in the axial opening of the bobbin structure, the bobbin structure including a bobbin end flange positioned at an axial end of the bobbin structure, the bobbin end flange defining a flange height, the bobbin end flange defining a flange height offset ratio equal to the flange height divided by the core body height, wherein the flange height offset ratio is between about 1.1 and about 0.9. 4. A magnetic component apparatus for an electronic circuit, comprising: a core having a core body and a core leg protruding from the core body; the core body defining a core body height; the core leg defining a core leg height, the core leg height being less than the core body height; a conductive winding positioned about the core leg, the conductive winding defining a winding height, the conductive winding also defining a winding height offset ratio equal to the winding height divided by the core body height, the winding height offset ratio being less than about 1.1; a bobbin structure defining an axial opening, the conductive winding disposed about the bobbin structure; and the core leg disposed in the axial opening of the bobbin structure, the bobbin structure including a bobbin end flange positioned at an axial end of the bobbin structure, the bobbin end flange defining a flange height, the bobbin end flange defining a flange height offset ratio equal to the flange height divided by the core body height, wherein the bobbin end flange defines a flange offset distance equal to the distance the bobbin end flange projects above the core body, the flange offset being between about 0.1 mm and about 5.0 mm. 5. A magnetic component apparatus for an electronic circuit, comprising: a core having a core body and a core leg protruding from the core body; the core body defining a core body height; the core leg defining a core leg height, the core leg height being less than the core body height; a conductive winding positioned about the core leg, the conductive winding defining a winding height, the conductive winding also defining a winding height offset ratio equal to the winding height divided by the core body height, the winding height offset ratio being less than about 1.1; a bobbin structure defining an axial opening, the conductive winding disposed about the bobbin structure; the core leg disposed in the axial opening of the bobbin structure, the bobbin structure including a bobbin end flange positioned at an axial end of the bobbin structure, the bobbin end flange defining a flange height, the bobbin end flange defining a flange height offset ratio equal to the flange height divided by the core body height, an enclosure surrounding the core and the bobbin structure, the enclosure including a circuit board housed therein; and the bobbin structure mounted on the circuit board. 6. The apparatus of claim 5 , further comprising: the core body including an upper core body surface, the enclosure defining an interior enclosure surface substantially facing the upper core body surface; and the interior enclosure surface defining a core gap between the upper core body surface and the interior enclosure surface. 7. The apparatus of claim 6 , further comprising a thermally conductive gap-filler disposed in the core gap. 8. The apparatus of claim 7 , further comprising the winding height offset ratio being less than about 1.0. 9. The apparatus of claim 7 , further comprising: the flange height offset ratio being greater than about 1.0; and the winding height offset ratio being less than about 1.0. 10. The apparatus of claim 7 , further comprising: the flange height offset ratio being greater than about 1.0; and the winding height offset ratio being substantially equal to about 1.0. 11. The apparatus of claim 7 , further comprising the flange height offset ratio being equal to about 1.0. 12. The apparatus of claim 7 , further comprising: the flange height offset ratio being less than about 1.0; and the winding height offset ratio being less than about 1.0. 13. The apparatus of claim 7 , further comprising: the flange height offset ratio being between about 1.0 and about 1.1; and the winding height offset ratio being between about 1.0 and about 0.9.