Coaxial cable device having a helical outer conductor and method for effecting weld connectivity

The following is claimed: 1. A jumper cable having an end prepared for connecting to a connector coupling assembly, the prepared end including an inner conductor, an outer conductor and a dielectric core disposed therebetween, the outer conductor having a helical outer surface contour, the prepared end comprising: a weld washer split along a radial line for threadably engaging the helical outer surface contour of the outer conductor, the weld washer defining an angle relative to the radial line, receiving a deformed edge of the outer conductor through an opening in the washer, and defining an anti-rotation surface, the deformed edge of the outer conductor being penetration welded to the weld washer, and an adaptor ring including a ferrule support ring and a ferrule cap; the ferrule support ring disposed on one side of the weld washer and defining a surface engaging the anti-rotation surface of the weld washer; the ferrule cap disposed on the other side of the weld washer, the conductive being press fit to a peripheral surface of the ferrule supporting to secure the weld washer therebetween; wherein the coaxial cable connector is affixed to a peripheral surface of the adaptor ring and a face surface of the weld washer augments the flow of electrical current to electrically ground the outer conductor to the coaxial cable connector. 2. A method for fabricating a jumper cable having a connector coupling assembly attached to a prepared end of a coaxial cable, the prepared end including an inner conductor, an outer conductor and a dielectric core disposed therebetween, the outer conductor having a helical outer surface contour, the method comprising the steps of: splitting a washer along a radial line to define a pair of opposed radial edges along the radial line, the washer having opening and a thickness dimension orthogonal to the washer opening, stamping the washer such that the radial edges are out-of-plane and the washer defines a lead angle corresponding to the lead angle of the helical outer surface contour of the outer conductor; threadably engaging the split washer onto an end of the helical outer surface contour of the outer conductor such that the end of the outer conductor is proud relative to the washer opening; flaring the proud end around the inner edges of the washer opening; and welding the flared end of the outer conductor to the split washer; wherein a face of the split washer augments the flow of electrical current to electrically ground the outer conductor to the coaxial cable connector. 3. The method according to claim 2 wherein the step of welding the flared end of the outer conductor to the split washer comprises penetration welding. 4. The method of claim 3 wherein the step of penetration welding includes contiguously spot welding the folds of the helical outer conductor into the weld washer around the edges of the washer opening. 5. The method according to claim 2 wherein the step of threadably engaging an end of the split washer onto an end of the outer conductor comprises the step of threading the split washer onto the end such that at least two helical corrugations of the helical outer surface contour extend beyond the washer opening. 6. The method according to claim 2 wherein the step of flaring the proud end around the inner edges of the washer opening comprises the step of producing a concave surface along a radially inboard surface of the split washer to effect inward reflection of the penetration weld energy away from a weld energy source. 7. The method according to claim 2 wherein the step of flaring the proud end around the inner edges of the washer opening comprises the step of deforming the weld washer such that a radially inboard surface thereof forms a frustacone to define an angle °θ indicative of the reflection angle of the penetration weld relative to a plane orthogonal to the elongate axis of the coaxial cable, the angle θ being greater than at least about ten degrees (10°) relative to the orthogonal plane to direct reflected weld energy away from its source. 8. The method according to claim 2 wherein the step of flaring the proud end around the inner edges of the washer opening comprises the step of folding the end of the helical outer conductor around the opening of the washer to achieve a thickness dimension equal to about the thickness dimension of the weld washer. 9. A jumper cable having an end prepared for connecting to a connector coupling assembly, the prepared end including an inner conductor, an outer conductor and a dielectric core disposed therebetween, the outer conductor having a helical outer surface contour, the jumper cable, comprising: a weld washer configured to threadably engage the helical outer surface contour of the outer conductor, the weld washer receiving a deformed edge of the outer conductor through an opening in the washer, the deformed edge of the outer conductor being penetration welded to the weld washer, wherein a face of the weld washer augments the flow of electrical current to electrically ground the outer conductor to the coaxial cable connector. 10. The jumper cable of claim 9 further comprising an adaptor ring including: a ferrule support ring disposed on one side of the weld washer; and a ferrule cap disposed on the other side of the weld washer, the conductive cap being press fit to a peripheral surface of the ferrule support ring to secure the weld washer therebetween. 11. The jumper cable of claim 9 wherein the deformed edge increases the thickness by at least a factor of two (2) to ensure a sufficient weld thickness to penetration weld the edge of the outer conductor. 12. The jumper cable of claim 9 wherein the deformed edge increases the thickness by at least a factor of three (3) to ensure a sufficient weld thickness to penetration weld the edge of the outer conductor. 13. The jumper cable of claim 9 wherein the weld washer defines a thickness dimension within a range of between about twenty-five thousandths inches (0.025″) to about one-hundred thousandths inches (0.100″). 14. The jumper cable of claim 13 wherein the helical outer conductor is deformed by folding the edge around the opening of the washer, the outer conductor being folded to achieve a thickness dimension equal to about the thickness dimension of the weld washer. 15. The jumper cable of claim 9 wherein the adaptor ring mates with the coaxial cable connector and defines a first anti-rotation surface, and wherein the weld washer defines a second anti-rotation surface, the first and second anti-rotation surfaces engaging to prohibit rotation of the connector about an elongate axis of the coaxial cable. 16. The jumper cable of claim 15 wherein the second anti-rotation surface is defined by an edge of the weld washer, the edge splitting the washer for threadably engaging the washer with the outer conductor. 17. The jumper cable of claim 9 wherein the weld surface defines a surface configured to reflect penetration weld energy away from a weld energy source. 18. The jumper cable of claim 17 wherein the weld washer defines a concave surface to cause inward reflection of the penetration weld energy. 19. The jumper cable of claim 17 wherein the weld washer is severed along a radial line. 20. The jumper cable of claim 17 wherein the weld washer is severed along a tangential line. 21. The jumper cable of claim 9 wherein a radial inboard portion of the weld washer forms a frustacone defining an angle indicative of the reflection angle