Method of forming an insulated electric conductor

What is claimed is: 1. A method of forming an insulated electric conductor comprising the steps of: forming a copper core; substantially enveloping said copper core in a layer of a metal having electrically insulating characteristics when anodized; winding the metal-layered copper core onto a spool to form a coil; after winding, anodizing at least some of said layer of metal with electrolytic material to form a metallic oxide dielectric layer; and after the anodizing step, rinsing the anodized metal to remove residual electrolytic material. 2. The method of forming an insulated electric conductor according to claim 1 , further comprising the step of annealing following the rinsing step. 3. The method of forming an insulated electric conductor according to claim 1 , further comprising the step of partially anodizing at least some of said layer of metal to form a metallic oxide dielectric layer prior to said step of winding. 4. The method of forming an insulated electric conductor according to claim 3 , further comprising the step of annealing following the step of rinsing after said partial anodizing step. 5. The method of forming an insulated electric conductor according to claim 3 wherein the copper core comprises a plurality of discrete copper strands. 6. The method of forming an insulated electric conductor according to claim 1 wherein said metallic oxide dielectric layer comprises a substantially homogeneous layer of metallic oxide. 7. The method of forming an insulated electric conductor according to claim 1 wherein said layer of metal disposed on said copper core is a metal sheet that is mechanically formed onto said copper core. 8. The method of forming an insulated electric conductor according to claim 1 where said metal is selected from the group consisting of aluminum, titanium, zinc and magnesium. 9. A method of forming an electric coil comprising the steps of: forming a copper core; substantially enveloping said copper core in a layer of a metal having electrically insulating characteristics when anodized; winding the metal-layered copper core onto a spool to form a coil; after the winding step, anodizing at least part of said layer of metal with electrolytic material to form a metallic oxide dielectric layer; and after the anodizing step, rinsing the anodized metal to remove residual electrolytic material. 10. The method of forming an insulated electric conductor according to claim 9 , further comprising the step of annealing following the rinsing step. 11. The method of forming an insulated electric conductor according to claim 9 where said metal is selected from the group consisting of aluminum, titanium zinc and magnesium. 12. A method of forming an electric coil comprising the steps of: forming a copper core; substantially enveloping said copper core in a layer of a metal having electrically insulating characteristics when anodized; initially anodizing part of said layer of metal with electrolytic material to form a metallic oxide dielectric layer; after the initial anodizing step, rinsing the anodized metal to remove residual electrolytic material; winding the partially-oxidized metal-layered copper core onto a spool to form a coil; after winding, further anodizing said layer of metal with electrolytic material to complete the anodization on said spool; and after the second anodizing step, rinsing the anodized metal to remove residual electrolytic material.