Implantable medical devices and related connector enclosure assemblies utilizing conductors electrically coupled to feedthrough pins

What is claimed is: 1. An implantable medical device, comprising: a connector enclosure including a base plate having an aperture, the connector enclosure housing at least one electrical connector; a can coupled to the base plate, the can housing electrical circuitry; a filter capacitor coupled to the base plate, the filter capacitor having an aperture and having capacitor forming plates including a ground plate, the ground plate being electrically coupled to the can; a feedthrough pin electrically coupled to the electrical connector within the connector enclosure, the feedthrough pin extending through the aperture in the base plate and being electrically coupled to at least one filter capacitor; a support body having a coupling to the base plate, the support body having a conductor passing through, the conductor having a first end extending from the support body on one side and a second end extending from the support body on another side, the first end being electrically coupled to the filter capacitor and the feedthrough pin and the second end extending into the can and being electrically coupled to the electrical circuitry. 2. The implantable medical device of claim 1 , further comprising an electrically conductive bonding material being present within the aperture of the filter capacitor and creating an electrically conductive bond among the conductor, the feedthrough pin, and at least one of the capacitor forming plates other than the ground plate. 3. The implantable medical device of claim 2 , wherein the bonding material is solder. 4. The implantable medical device of claim 2 , wherein the second end of the conductor is directly bonded to a circuit board within the can that contains the electrically circuitry. 5. The implantable medical device of claim 2 , wherein the filter capacitor has an asymmetric shape and wherein the base plate includes a recess that defines an asymmetric shape that matches the asymmetric shape of the filter capacitor. 6. The implantable medical device of claim 2 , wherein the aperture within the filter capacitor has a keyhole shape and wherein the feedthrough pin and the conductor pass into the aperture within the filter capacitor. 7. The implantable medical device of claim 1 , wherein the support body includes posts and the base plate includes cavities and wherein the posts are contained within the cavities. 8. A connector enclosure assembly for an implantable medical device, comprising: a connector enclosure including a base plate having an aperture, the connector enclosure housing at least one electrical connector; a filter capacitor coupled to the base plate, the filter capacitor having an aperture and having capacitor forming plates; a feedthrough pin electrically coupled to the electrical connector within the connector enclosure, the feedthrough pin extending through the aperture in the base plate and being present in the vicinity of the aperture in the filter capacitor; a conductor with a first end being present in the vicinity of the aperture within the filter capacitor and with a second end extending away from the filter capacitor, the first end being electrically coupled to the filter capacitor and the feedthrough pin; and a protector body affixed to the base plate, the protector body enclosing the conductor while having an aperture providing access to the conductor. 9. The connector enclosure assembly of claim 8 , wherein the protector body includes a first portion and a second portion, the first portion having features that mate to features of the second portion such that the protector body is attached by the first portion and second portion being individually engaged to the base plate and the features of the first portion being mated to the features of the second portion. 10. The connector enclosure assembly of claim 9 , wherein the aperture is defined by an aperture in the first portion and an aperture in the second portion that is aligned with the aperture in the first portion upon mating the features of the first portion to the features of the second portion. 11. The connector enclosure assembly of claim 10 , wherein the support body includes posts and the base plate includes cavities and wherein the posts are contained within the cavities. 12. The connector enclosure assembly of claim 8 , further comprising providing a support body that is coupled to the base plate, wherein the conductor passes through the support body. 13. The connector enclosure assembly of claim 8 , further comprising an electrically conductive bonding material being present within the aperture of the filter capacitor and creating an electrically conductive bond among the conductor, the feedthrough pin, and at least one of the capacitor forming plates. 14. The connector enclosure assembly of claim 13 , wherein the electrically conductive material is solder. 15. The connector enclosure assembly of claim 8 , wherein the filter capacitor has an asymmetric shape and wherein the base plate includes a recess that defines an asymmetric shape that matches the asymmetric shape of the filter capacitor. 16. A connector enclosure assembly for an implantable medical device, comprising: a connector enclosure including a base plate having a plurality of apertures; a filter capacitor coupled to the base plate, the filter capacitor having a plurality of apertures and having capacitor forming plates; a plurality of feedthrough pins extending through the apertures in the base plate and in the filter capacitor; and a plurality of conductors with a first end of each conductor having an annular ring that surrounds a corresponding feedthrough pin in proximity to the filter capacitor with a second end of the plurality of conductors extending away from the filter capacitor and being joined to a common tab that is separated from the filter capacitor. 17. The connector enclosure assembly of claim 16 , wherein the annular ring of each of the conductors is soldered to the corresponding feedthrough pin. 18. The connector assembly of claim 16 , wherein the annular ring of each of the conductors is welded to the corresponding feedthrough pin. 19. The connector assembly of claim 18 , further comprising a plurality washers with a washer of the plurality being positioned about a corresponding feedthrough pin between the filter capacitor and the annular ring of the conductor. 20. The connector assembly of claim 16 , wherein each of the conductors has a transitional area and where the filter capacitor has a notch in proximity of the transitional area. 21. A method of manufacturing a connector enclosure assembly of an implantable medical device, comprising: providing a connector enclosure including a base plate having a plurality of apertures; providing a filter capacitor coupled to the base plate, the filter capacitor having a plurality of apertures and having capacitor forming plates; providing a plurality of feedthrough pins extending through corresponding apertures in the base plate and in the filter capacitor; and positioning a plurality of conductors with a first end of each conductor having an annular ring that surrounds a corresponding feedthrough pin in proximity to the filter capacitor with a second end of the plurality of conductors extending away from the filter capacitor and wherein the plurality of conductors are positioned by the second ends having a connection to a common tab that is separated from the filter capacitor. 22. The method of claim 21 , further comprising so