Feedthrough wire connector for use in a medical device

What is claimed is: 1. A feedthrough connector assembly, which comprises: a) an electrically conductive connector, comprising: i) a connector housing comprising a housing sidewall defining an opening surrounded by an inner surface of the housing sidewall, wherein the inner housing surface has a first length extending along a longitudinal axis to opposed first and second housing ends and wherein the inner housing surface has a first diameter for at least part of the first length; and ii) at least one prong supported by the housing sidewall, wherein the prong extends axially and inwardly along the longitudinal axis to a prong end that is closer to the axis than the first diameter of the inner housing surface; b) a hermetic feedthrough, comprising: i) an electrically conductive ferrule comprising a ferrule sidewall having an inner ferrule surface defining a ferrule opening, wherein the ferrule sidewall extends from a first ferrule end surface spaced from a second ferrule end surface; ii) an insulator disposed at least partially within and hermetically sealed to the inner ferrule surface, wherein the insulator comprises first and second insulator ends disposed adjacent to the respective first and second ferrule end surfaces; iii) at least one first bore extending through the insulator to the first and second insulator ends; iv) an electrically conductive terminal pin received in the first bore, the terminal pin having a terminal pin sidewall extending from a first terminal pin portion having a first terminal pin end to a second terminal pin end, wherein the opposed first and second terminal pin ends are spaced outwardly from the respective first and second insulator ends; and v) a first hermetic seal at the terminal pin to the insulator and a second hermetic seal at the insulator to the ferrule; and d) wherein the hermetic feedthrough is electrically connected to the connector with the first terminal pin portion residing within the housing so that the prong end contacts the terminal pin sidewall in a grip-tight engagement to thereby help prevent inadvertent movement of the terminal pin along the longitudinal axis out from within the connector housing opening. 2. The feedthrough connector assembly of claim 1 , which comprises a feedthrough capacitor, comprising: a) a dielectric body; b) at least one active electrode plate and at least one ground electrode plate encased in the dielectric body in spaced relation with each other; c) at least one second bore extending through the dielectric body; d) at least one first electrically conductive material disposed in the second bore to conductively couple the terminal pin to the active electrode plate; and e) at least one second electrically conductive material contacting an outer surface of the dielectric body to electrically couple the ground electrode plate to the conductive ferrule; f) wherein the hermetic feedthrough is connected to the feedthrough capacitor and are electrically connected to the connector with the first terminal pin portion extending into the housing opening and proximate the housing end sidewall so that the prong end contacts the terminal pin sidewall in a grip-tight engagement to thereby help prevent inadvertent movement of the terminal pin along the longitudinal axis out from within connector opening. 3. The feedthrough connector assembly of claim 1 wherein the inner housing surface extends from the first diameter to an end wall within the connector housing, thereby forming a blind hole therewithin. 4. The feedthrough connector assembly of claim 1 wherein the feedthrough comprises a first braze material hermetically sealing the terminal pin to the insulator in the terminal pin bore and a second braze material hermetically sealing the insulator to the ferrule. 5. The feedthrough connector assembly of claim 1 wherein a recess extends partially within an exterior sidewall surface of the terminal pin so that the prong end contacts within the recess of the terminal pin sidewall in a grip-tight engagement to thereby help prevent inadvertent movement of the terminal pin along the longitudinal axis out from within connector opening. 6. The feedthrough connector assembly of claim 1 wherein a ridge extends outwardly from an exterior sidewall surface of the terminal pin so that the prong end contacts a portion of the exterior terminal pin surface distal of the ridge in a grip-tight engagement to thereby help prevent inadvertent proximal movement of the terminal pin along the longitudinal axis out from within connector opening. 7. The feedthrough connector assembly of claim 1 wherein at least an exterior surface of the connector housing comprises an electrically conductive material. 8. The feedthrough connector assembly of claim 1 wherein at least an exterior surface of the connector housing comprises a material selected from the group consisting of copper, tin, gold, platinum, palladium, titanium, and combinations thereof. 9. The feedthrough connector assembly of claim 1 wherein the terminal pin is composed of a material selected from the group consisting of platinum, platinum alloys, gold, silver, palladium, palladium alloys, niobium and tantalum. 10. The feedthrough connector assembly of claim 1 wherein the connector housing is configured for electrical connection to a circuit board. 11. The feedthrough connector assembly of claim 1 wherein the insulator is composed of a material selected from the group consisting of alumina, zirconia, zirconia toughened alumina, aluminum nitride, boron nitride, silicon carbide, glass and combinations thereof. 12. The feedthrough connector assembly of claim 1 wherein the electrically conductive ferrule is selected from the group consisting of titanium, tantalum, niobium, stainless steel, and combinations thereof. 13. The feedthrough connector assembly of claim 1 wherein the exterior surface of the connector housing is configured to be joined to a circuit board. 14. The feedthrough connector assembly of claim 1 wherein the connector further comprises an inner base portion, the inner base portion having a second diameter less than the first diameter and a second length that is less than the first length of the housing sidewall, and wherein the at least one prong is supported by the base portion in the connector housing opening. 15. The feedthrough connector assembly of claim 14 wherein a portion of the pin sidewall is wedged against a surface of the base portion to establish a grip-tight engagement to thereby help prevent inadvertent movement of the terminal pin within connector opening. 16. The feedthrough connector assembly of claim 14 wherein the base portion of the connector has an annular shape about the connector housing opening. 17. A method for positioning a feedthrough assembly within an implantable medical device, comprising the steps of: a) providing an electrically conductive connector, comprising: i) a connector housing comprising a housing sidewall defining an opening surrounded by an inner surface of the housing sidewall, wherein the inner housing surface has a first length extending along a longitudinal axis to opposed first and second housing ends and wherein the inner housing surface has a first diameter for at least part of the first length; and ii) at least one prong supported by the housing sidewall in the opening, wherein the prong extends axially and inwardly along the longitudinal axis to a prong end that is closer to the axis than the first diameter of the inner housing surface; b) providing a hermetic feedthrough, comprising: i) an electri