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Methods and apparatuses are provided for an electrical device that employs a feedthrough including a hermetic seal that seals an interior region of the electrical device. The electrical device includes an electrical contact disposed within the interior region of the electrical device, and a wire ter

Methods and apparatuses are provided for an electrical device that employs a feedthrough including a hermetic seal that seals an interior region of the electrical device. The electrical device includes an electrical contact disposed within the interior region of the electrical device, and a wire terminal that includes an encircled portion that is encircled by the feedthrough, and a first end that electrically connects with said electrical contact. When the electrical device is constructed, the first end of the wire terminal is coated with a conductive metal that is more resistant to oxidation than the wire terminal. The first end of the wire terminal is secured to the electrical contact using a mechanical device such as a crimping connector or a spring connector.

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1. An implantable medical device for delivering a therapy, the device comprising: a hermetically-sealed housing enclosing an electronic component; anda feedthrough coupled to the housing, the feedthrough comprising: a generally annular ferrule adapted to mate with an opening in the housing;an insula

1. An implantable medical device for delivering a therapy, the device comprising: a hermetically-sealed housing enclosing an electronic component; anda feedthrough coupled to the housing, the feedthrough comprising: a generally annular ferrule adapted to mate with an opening in the housing;an insulating material disposed within and coupled to the ferrule; anda conductor extending through and sealed to the insulating material and having a proximal portion disposed outside of the housing and a distal portion disposed within the housing, the conductor comprising an inner core comprising a niobium or niobium alloy wire, an intermediate layer comprising a refractory metal and an oxide-resistant coating comprising platinum or platinum-iridium and having a thickness of at least 100 Angstroms;wherein the distal portion of the conductor is coupled to the electronic component by a heat joined connection. 2. The device of claim 1 wherein the oxide-resistant coating is applied to the inner core by painting. 3. The device of claim 2 wherein the oxide-resistant coating is applied to the inner core by cladding. 4. The device of claim 1 wherein the oxide-resistant coating is applied to the inner wire by vacuum physical deposition. 5. The device of claim 1 wherein the oxide-resistant coating is applied to the inner core by cladding. 6. An implantable medical device for delivering a therapy, the device comprising: a hermetically-sealed housing enclosing an electronic component;a header coupled to the housing, the header adapted for receiving a terminal pin of a therapy lead; anda feedthrough coupled to the housing, the feedthrough comprising: a generally annular ferrule adapted to mate with an opening in the housing;an insulating material disposed within and coupled to the ferrule; anda conductor extending through and brazed to the insulating material and having a proximal portion disposed within the header and a distal portion disposed within the housing, the conductor comprising an inner core comprising a niobium or niobium alloy wire, an intermediate layer comprising a refractory metal and an oxide-resistant coating comprising platinum or platinum-iridium and an oxide-resistant coating having a thickness of at least 100 Angstroms;wherein the distal portion of the conductor is coupled to the electronic component by a solder joint. 7. The device of claim 6 wherein the oxide-resistant coating is applied to the inner core by painting. 8. The device of claim 6 wherein the oxide-resistant coating is applied to the inner core by cladding. 9. The device of claim 6 wherein the oxide-resistant coating is applied to the inner wire by vacuum physical deposition.