Core-clip PG-lead spring electrical contact

The claimed invention is: 1. An implantable medical device comprising: a housing; and a header mounted to the housing, the header including a header core including a bore with an electrical contact located within the bore, wherein the electrical contact includes: a first longitudinally extending arm cantilever mounted within the bore; and a second longitudinally extending arm cantilever mounted within the bore; and wherein the first longitudinally extending arm and the second longitudinally extending arm each include a first, mounting end positioned within a mounting slot in the header core and a second, free end located within a cavity in the bore, wherein the first longitudinally extending arm and the second longitudinally extending arm each include an intermediate section located between the first mounting end and the second free end, the intermediate section positioned within a widened slot cavity in the core that is wider than the mounting slot, wherein the widened slot cavity defines a triangular shaped slot defining a lower surface, with a bottom surface of the intermediate main spring section resting on the lower surface when a lead terminal is not positioned within the bore, wherein the triangular shaped slot limits the inward bias of the first end second longitudinally extending arms. 2. The implantable medical device of claim 1 , wherein the first longitudinally extending arm and the second longitudinally extending arm each include a connection section which extends perpendicularly from the mounting end and provides a connection surface to connect to a feedthrough. 3. The implantable medical device of claim 2 , wherein the connection sections of the first longitudinally extending arm and the second longitudinally extending arm are connected together. 4. The implantable medical device of claim 1 , wherein the first longitudinally extending arm and the second longitudinally extending arm are each biased towards a center of the bore and deflect in opposite directions from each other when a lead is inserted therebetween. 5. The implantable medical device of claim 1 , wherein the first longitudinally extending arm and the second longitudinally extending arm each include a contact portion on the second, free end that curves toward a center of the bore. 6. The implantable medical device of claim 5 , further including a separate material located on the contact portion. 7. The implantable medical device of claim 1 , further including a cover attached to the header and located over the bore and the electrical contact. 8. The implantable medical device of claim 1 , further including a lead including a terminal configured to be received within the bore. 9. An implantable medical device comprising: a housing; and a header mounted to the housing, the header including a header core having a bore with an electrical contact located within the bore, wherein the header core includes a mounting slot and a widened slot cavity that is wider than the mounting slot and a cavity; wherein the electrical contact includes: a first longitudinally extending arm cantilever mounted within the bore; and a second longitudinally extending arm cantilever mounted within the bore; wherein the first longitudinally extending arm and the second longitudinally extending arm each include a first, mounting end positioned within the mounting slot and a second, free end located within the cavity in the header core and each include an intermediate main spring section located between the first mounting end and the second free end, the intermediate section being positioned with the widened slot cavity, wherein the first longitudinally extending arm and the second longitudinally extending arm each include a flat, planar connection section which extends perpendicularly from the mounting section and is exposed on a side surface of the header core and provides a flat, planar connection surface to connect to a feedthrough. 10. The implantable medical device of claim 9 , wherein the widened slot cavity defines a triangular shaped slot, with a bottom surface of the intermediate main spring section resting thereon when a lead terminal is not positioned within the bore, wherein the triangular shaped slot limits the bias of the first end second longitudinally extending arm. 11. The implantable medical device of claim 9 , wherein the connection sections of the first longitudinally extending arm and the second longitudinally extending arm are connected together. 12. The implantable medical device of claim 9 , wherein the first longitudinally extending arm and the second longitudinally extending arm are each biased towards a center of the bore and deflect in opposite directions from each other when a lead is inserted therebetween. 13. The implantable medical device of claim 9 , wherein the first longitudinally extending arm and the second longitudinally extending arm each include a contact portion on the second, free end that curves toward a center of the bore. 14. A method comprising: forming an electrical contact including first and second longitudinally extending arms; and placing the electrical contact into a header core of an implantable device such that each of the first and second arms are cantilevered mounted within a bore wherein the first longitudinally extending arm and the second longitudinally extending arm each include a first, mounting end positioned within a mounting slot in the header core and a second, free end located within a cavity in the bore, wherein the first longitudinally extending arm and the second longitudinally extending arm each include an intermediate section located between the first mounting, end and the second free end, the intermediate section positioned within a widened slot cavity in the core that is wider than the mounting slot, wherein the widened slot cavity defines a triangular shaped slot defining a lower surface, with a bottom surface of the intermediate main spring section resting on the lower surface when a lead terminal is not positioned within the bore, and wherein the triangular shaped slot limits the inward bias of the first end second longitudinally extending arms. 15. The method of claim 14 , wherein the first longitudinally extending arm and the second longitudinally extending arm each include a connection section which extends perpendicularly from the mounting end and provides a connection surface to connect to a feedthrough. 16. The method of claim 15 , wherein the first longitudinally extending arm and the second longitudinally extending arm each include a flat, planar connection section which extends perpendicularly from the mounting section and is exposed on a side surface of the header core and provides a flat, planar connection surface to connect to a feedthrough.