Abstract: A wire harness assembly including a first, second, and third shielded wire cable, each having a core conductor surrounded by a shield conductor which is surrounded by a insulative jacket. Portions of the core conductors are sonically welded to one another. The assembly also includes a flexible insulative layer wrapped about the sonically welded core portions, a flexible conductive layer wrapped about the flexible insulative layer and exposed shield portions, and a section of heat shrink tubing in which the flexible conductive layer and portions of the insulative jackets are enclosed. The assembly further including an insulative housing having a longitudinal cavity extending therethrough in which the section of heat shrink tubing, the flexible conductive layer, and portions of the insulative jackets are disposed.

Abstract: A terminal assembly is configured to terminate a shielded cable having an inner conductor, an inner insulator surrounding the inner conductor, an outer conductor surrounding the inner insulator, and an outer insulator surrounding the outer conductor. This terminal assembly includes a generally cylindrical outer ferrule formed of a plastic conductive material, i.e. a material that is deformed after stress is removed, and a generally cylindrical inner ferrule formed of an elastic dielectric material i.e. a material that recovers after stress is removed, having a plurality of circumferential grooves defined in an outer surface thereof. At least a portion of the inner ferrule is disposed within the outer ferrule. A portion of the outer conductor is disposed intermediate the inner ferrule and the outer ferrule and is in intimate contact therewith.

Abstract: A terminal assembly is configured to terminate a shielded cable having an inner conductor, an inner insulator surrounding the inner conductor, an outer conductor surrounding the inner insulator, and an outer insulator surrounding the outer conductor. This terminal assembly includes a generally cylindrical outer ferrule formed of a plastic conductive material, i.e. a material that is deformed after stress is removed, and a generally cylindrical inner ferrule formed of an elastic dielectric material i.e. a material that recovers after stress is removed, having a plurality of circumferential grooves defined in an outer surface thereof. At least a portion of the inner ferrule is disposed within the outer ferrule. A portion of the outer conductor is disposed intermediate the inner ferrule and the outer ferrule and is in intimate contact therewith.

Abstract: A wire cable assembly, such as those used in electric or hybrid electric vehicles, having a plurality of shielded wire cables spliced together. The center conductors are joined together and enclosed in an inner insulator. The shield conductors of the cable are joined by an electrically conductive sleeve enclosing the inner insulator and attached to the shield conductors of the shielded wire cables. The sleeve separates the outer insulating layers of the shielded wire cables. The sleeve is encased by an outer insulator that is sealed to the outer insulating layers of the shielded wire cables. A method of splicing shielded wire cables together is also presented.

Abstract: A terminal assembly configured to terminate the shield of a shielded cable having an inner conductor, an inner insulator surrounding the inner conductor, an outer conductor forming a shield surrounding the inner insulator, and an outer insulator surrounding the outer conductor. The terminal assembly includes a generally cylindrical outer ferrule formed of a conductive material and a generally cylindrical inner ferrule formed of a resilient compressible dielectric material. At least a portion of the inner ferrule is disposed within the outer ferrule and a portion of the shielded cable is disposed within the inner ferrule. A portion of the outer conductor is disposed intermediate the inner and outer ferrules and is in intimate contact therewith.

Abstract: A method is provided for attaching a termination arrangement to a shielded cable which includes a conductive core, a core insulation layer, a conductive shield layer, and an outer insulation layer. A length of the outer insulation layer is removed to expose an end portion of the conductive shield layer and a length of the core insulation layer is removed to expose a portion of the conductive core. The termination assembly is provided having a terminal, a core crimp section in electrical communication with the terminal, and an inner ferrule section connected to the core crimp section. The core crimp section is positioned adjacent to the exposed conductive core and crimped around said conductive core in electrical contact therewith. The inner ferrule section is positioned adjacent to the exposed conductive shield layer and crimped around the core insulation layer. The core crimp section is separated from the inner ferrule section.

Abstract: A wire cable assembly, such as those used in electric or hybrid electric vehicles, having a plurality of shielded wire cables spliced together. The center conductors are joined together and enclosed in an inner insulator. The shield conductors of the cable are joined by an electrically conductive sleeve enclosing the inner insulator and attached to the shield conductors of the shielded wire cables. The sleeve separates the outer insulating layers of the shielded wire cables. The sleeve is encased by an outer insulator that is sealed to the outer insulating layers of the shielded wire cables. A method of splicing shielded wire cables together is also presented.

Abstract: A method is provided for attaching a termination arrangement to a shielded cable which includes a conductive core, a core insulation layer, a conductive shield layer, and an outer insulation layer. A length of the outer insulation layer is removed to expose an end portion of the conductive shield layer and a length of the core insulation layer is removed to expose a portion of the conductive core. The termination assembly is provided having a terminal, a core crimp section in electrical communication with the terminal, and an inner ferrule section connected to the core crimp section. The core crimp section is positioned adjacent to the exposed conductive core and crimped around said conductive core in electrical contact therewith. The inner ferrule section is positioned adjacent to the exposed conductive shield layer and crimped around the core insulation layer. The core crimp section is separated from the inner ferrule section.

Abstract: A method is provided for forming a grounding arrangement on a shielded cable which includes a conductive core, a core insulation layer, a conductive shield layer, and an outer insulation layer. An inner ferrule is positioned adjacent an end portion of the conductive shield layer that has been exposed, the inner ferrule is crimped around the core insulation layer, and the end portion is folded over the inner ferrule to radially surround the inner ferrule. An electrically conductive outer ferrule is positioned radially adjacent to the end portion and the outer ferrule is crimped radially around the inner ferrule to capture the end portion radially between the inner ferrule and the outer ferrule, thereby fixing the outer ferrule in electrical contact with the conductive shield layer.

Abstract: A method is provided for forming a grounding arrangement on a shielded cable which includes a conductive core, a core insulation layer, a conductive shield layer, and an outer insulation layer. An inner ferrule is positioned adjacent an end portion of the conductive shield layer that has been exposed, the inner ferrule is crimped around the core insulation layer, and the end portion is folded over the inner ferrule to radially surround the inner ferrule. An electrically conductive outer ferrule is positioned radially adjacent to the end portion and the outer ferrule is crimped radially around the inner ferrule to capture the end portion radially between the inner ferrule and the outer ferrule, thereby fixing the outer ferrule in electrical contact with the conductive shield layer.

Abstract: A wire cable assembly including a wire cable and a contact element. The contact element is configured to axially receive the wire cable and is formed to attach the wire cable to the contact element. A portion of the contact element is formed to define a single pair of indentation arrangements. The pair of indentation arrangements consists of a first indentation arrangement that diametrically opposes a second indentation arrangement. The contact element may also define a pair of humps adjacent to each of the grooves in the single pair of grooves. The wire cable may further include a conductive inner core, a first insulation layer surrounding the inner core, and an outer wire layer surrounding the first insulation layer. The wire cable assembly may further include an inner ferrule and an outer ferrule with the outer wire layer disposed between the inner ferrule and the outer ferrule.

Abstract: An electrically-conducting contact element includes a section of the contact element defining an aperture. The section is configured to receive a wire cable within the aperture for attachment thereto. The section includes an internal surface with at least one groove having sharp edges formed therein. A wire assembly that includes the electrically-conducting contact and a method to construct the electrically-conducting contact are also presented. The method includes a step of providing the contact element and forming a sharp edge on the internal surface of the contact element. A further step in the method includes altering material on the internal surface of the contact element by a forming means. The forming means may be one of milling, rifling, machining, cutting, indenting, or stamping. A wire assembly and a vehicular electrical wiring harness that respectively include the contact element are also presented.

Abstract: An electrically-conducting contact element includes a section of the contact element defining an aperture. The section is configured to receive a wire cable within the aperture for attachment thereto. The section includes an internal surface with at least one groove having sharp edges formed therein. A wire assembly that includes the electrically-conducting contact and a method to construct the electrically-conducting contact are also presented. The method includes a step of providing the contact element and forming at least one cutout groove on the internal surface of the contact element. A further step in the method includes altering material on the internal surface of the contact element by a forming means. The forming means may be one of milling, rifling, machining, cutting, indenting, or stamping. A wire assembly and a vehicular electrical wiring harness that respectively include the contact element are also further presented.

Abstract: An electrically-conducting contact element includes a section of the contact element defining an aperture. The section is configured to receive a wire cable within the aperture for attachment thereto. The section includes an internal surface with at least one cutout arrangement formed thereon. A wire assembly that includes the electrically-conducting contact and a method to construct the electrically-conducting contact are also presented. The method includes a step of providing the contact element and forming at least one cutout arrangement on the internal surface of the contact element. A further step in the method includes altering material on the internal surface of the contact element by a forming means. The forming means may be one of milling, rifling, machining, cutting, indenting, or stamping. A wire assembly and a vehicular electrical wiring harness that respectively include the contact element are also further presented.

Abstract: A crimp connection includes a contact element and a wire cable. The wire cable is disposed along a longitudinal axis and configured to axially receive the contact element. When the contact element receives the wire cable the crimp connection is formed that attaches the wire cable with the contact element so that at least a portion of the crimp connection includes at least one indention arrangement deformed therein. The indention arrangement contains a pair of humps separated by a groove therebetween. The crimp connection may be applied to a wire cable assembly that includes an inner and an outer ferrule in a manner that prevents protrusions from forming thereon so that undesired RF energy is not electrically transmitted out from crimp connection of the wire cable assembly. Methods to construct a crimp connection that includes the pair of humps separated by a groove therebetween are also further presented.