Device and method for splicing shielded wire cables

We claim: 1. A wire harness assembly, comprising: a first shielded wire cable having a first exposed shield conductor and a second exposed shield conductor separated by an first exposed core conductor; a second shielded wire cable having a third exposed shield conductor and a fourth exposed shield conductor separated by an second exposed core conductor; a generally planar bus bar formed of a conductive material, wherein the first and second exposed core conductors are welded to the bus bar, thereby electrically connecting the first and second exposed core conductors; a conductive sleeve enclosing a portion of the first, second, third, and fourth exposed shield conductors; an outer insulator enclosing the conductive sleeve; an inner insulator enclosing the bus bar and disposed within the conductive sleeve; and first and second seals formed of an electrically conductive elastomeric material contained within an end of the outer insulator, wherein the first and seconds seals are in contact with the conductive sleeve. 2. The wire harness assembly according to claim 1 , wherein the conductive sleeve defines barbs configured to penetrate the first and second seals. 3. A wire harness assembly, comprising: a first shielded wire cable having a first exposed shield conductor and a second exposed shield conductor separated by an first exposed core conductor; a second shielded wire cable having a third exposed shield conductor and a fourth exposed shield conductor separated by an second exposed core conductor; a generally planar bus bar formed of a conductive material, wherein the first and second exposed core conductors are welded to the bus bar, thereby electrically connecting the first and second exposed core conductors; a conductive sleeve enclosing a portion of the first, second, third, and fourth exposed shield conductors; an outer insulator enclosing the conductive sleeve; an inner insulator enclosing the bus bar and disposed within the conductive sleeve; a first ferrule attached to the first shield conductor; a second ferrule attached to the second shield conductor; a third ferrule attached to the third shield conductor; and a fourth ferrule attached to the fourth shield conductor, wherein the conductive sleeve defines a first contact attached to the first ferrule, a second contact attached to the second ferrule, a third contact attached to the third ferrule, and a fourth contact attached to the fourth ferrule, thereby providing a conductive path between the first, second, third, and fourth shield conductors, wherein a first and second shield conductor outer diameter is different than a third and fourth shield conductor outer diameter and wherein the first, second, third, and fourth ferrules all have the same ferrule outer diameter. 4. The wire harness assembly according to claim 3 , wherein the first and third ferrules are spaced the same distance apart from the bus bar and the second and fourth ferrules are spaced the same distance apart from the bus bar. 5. The wire harness assembly according to claim 4 , wherein the first and third ferrules are spaced the same distance apart from the inner insulator and the second and fourth ferrules are spaced the same distance apart from the inner insulator. 6. A wire harness assembly, comprising: a first shielded wire cable having a first exposed shield conductor and a second exposed shield conductor separated by an first exposed core conductor; a second shielded wire cable having a third exposed shield conductor and a fourth exposed shield conductor separated by an second exposed core conductor; a generally planar bus bar formed of a conductive material, wherein the first and second exposed core conductors are welded to the bus bar, thereby electrically connecting the first and second exposed core conductors; a conductive sleeve enclosing a portion of the first, second, third, and fourth exposed shield conductors; an outer insulator enclosing the conductive sleeve; an inner insulator enclosing the bus bar and disposed within the conductive sleeve; and first and second bands formed of an electrically conductive elastomeric material contained within an end of the outer insulator, wherein the first band is attached to the first and third shield conductors, wherein the second band is attached to the second and fourth shield conductors, and wherein the first and seconds bands are in contact with the conductive sleeve, thereby providing a conductive path between the first, second, third, and fourth shield conductors. 7. The wire harness assembly according to claim 6 , wherein the conductive sleeve defines barbs configured to penetrate the first and second bands. 8. A wire harness assembly comprising: a first shielded wire cable having a first exposed shield conductor and a second exposed shield conductor separated by an first exposed core conductor; a second shielded wire cable having a third exposed shield conductor and a fourth exposed shield conductor separated by an second exposed core conductor; a generally planar bus bar formed of a conductive material, wherein the first and second exposed core conductors are welded to the bus bar, thereby electrically connecting the first and second exposed core conductors; a conductive sleeve enclosing a portion of the first, second, third, and fourth exposed shield conductors; an outer insulator enclosing the conductive sleeve; an inner insulator enclosing the bus bar and disposed within the conductive sleeve, wherein the inner insulator defines an unused cavity configured to contain a shielded wire cable and wherein the conductive sleeve includes a tab that is folded over an end of the inner insulator, thereby enclosing the unused cavity. 9. A method of splicing shielded wire cables together, comprising the steps of: providing a first shielded wire cable having a first exposed shield conductor and a second exposed shield conductor separated by a first exposed core conductor; providing a second shielded wire cable having a third exposed shield conductor and a fourth exposed shield conductor separated by a second exposed core conductor; providing a generally planar bus bar formed of a conductive material; providing a conductive sleeve; providing an inner insulator formed of a dielectric material; disposing the bus bar within the inner insulator; welding the first and second exposed core conductors to the bus bar, thereby electrically connecting the first and second exposed core conductors; disposing the inner insulator and the first, second, third, and fourth exposed shield conductors within the conductive sleeve; attaching the first, second, third, and fourth exposed shield conductors to the conductive sleeve, thereby providing a conductive path between the first, second, third, and fourth exposed shield conductors; providing an outer insulator formed of a nonconductive material; disposing the conductive sleeve within the outer insulator, wherein the conductive sleeve defines a first, second, third, and fourth contact; providing a first, second, third, and fourth ferrule; attaching the first, second, third, and fourth ferrules to the first, second, third, and fourth shield conductors respectively; and attaching the first, second, third, and fourth contacts to the first, second, third, and fourth ferrules respectively. 10. The method of claim 9 , further comprising the step of aligning the first, second, third, and fourth ferrules with the bus bar. 11. The method of claim 10 , further comprising the step of aligning the first, second, third, and fourth ferrules relative to the inner insulator. 12. The method of claim 11 , wherein the steps of aligni