A wire harness including: a wire harness main body including an electric wire and an exterior tube enclosing an outer circumference of the electric wire; a path restricting cover that is attached to an outer circumference of the exterior tube and restricts a path of the wire harness main body; and an attachment attached to an outer circumference of a portion in a lengthwise direction of the path restricting cover.

A cable includes: plural cable sets each including a pair of core wires, a shielding layer covering the pair of core wires, and an outer layer covering the shielding layer; and plural fixing wires cross-braided outside the cable sets to keep the cable sets in a row position along a lateral direction.

A cable includes: plural cable sets each including a pair of core wires, a shielding layer covering the pair of core wires, and an outer layer covering the shielding layer; and plural fixing wires cross-braided outside the cable sets to keep the cable sets in a row position along a lateral direction.

A wire harness including: a shielded wire having a core wire; an insulating cover covering an outer surface of the core wire; and an electromagnetic shield covering the insulating cover, wherein the electromagnetic shield is a metal layer that is seamlessly formed in intimate contact with an outer surface of the insulating cover.

The purpose of the present invention is to provide a feature making it easy to accommodate a terminal-equipped wire in a connector housing. This connector-equipped wire is provided with: a terminal-equipped wire comprising a jacketed wire and a terminal component that is provided to an end part of the jacketed wire; and a connector housing comprising a body component where a cavity has been formed and a cover component mounted onto the body component. A distal end part of the terminal component is accommodated in the cavity. A rear end part of the terminal component protrudes out to outside the cavity, and is covered by the cover component or by the cover component and the body component. In the state where the rear end part of the terminal component protrudes out to outside the cavity, the cover component can be mounted onto the body component in accordance with a sliding movement in a direction intersecting the longitudinal direction of the cavity.

The purpose of the present invention is to provide a feature making it easy to accommodate a terminal-equipped wire in a connector housing. This connector-equipped wire is provided with: a terminal-equipped wire comprising a jacketed wire and a terminal component that is provided to an end part of the jacketed wire; and a connector housing comprising a body component where a cavity has been formed and a cover component mounted onto the body component. A distal end part of the terminal component is accommodated in the cavity. A rear end part of the terminal component protrudes out to outside the cavity, and is covered by the cover component or by the cover component and the body component. In the state where the rear end part of the terminal component protrudes out to outside the cavity, the cover component can be mounted onto the body component in accordance with a sliding movement in a direction intersecting the longitudinal direction of the cavity.

A busbar structure with a metal body, which ensures better discharge of the internal heat generated by the busbars during normal operation, prevents combustion and stops the progression of combustion, in environments that require the power line to be IP68 against the environmental water threat and where IP68 busbar structures are used.

A method can include extruding an electrically insulating elastomeric compound about a conductor where the electrically insulating elastomeric compound includes ethylene propylene diene monomer (M-class) rubber (EPDM) and an alkane-based peroxide that generates radicals that form decomposition products; cross-linking the EPDM via radical polymerization to form an electrically insulating layer about the conductor; heating the cross-linked EPDM to at least 55 degrees C. to reduce the concentration of the decomposition products in the electrically insulating layer; and disposing a gas barrier layer about the electrically insulating layer.

A method can include extruding an electrically insulating elastomeric compound about a conductor where the electrically insulating elastomeric compound includes ethylene propylene diene monomer (M-class) rubber (EPDM) and an alkane-based peroxide that generates radicals that form decomposition products; cross-linking the EPDM via radical polymerization to form an electrically insulating layer about the conductor; heating the cross-linked EPDM to at least 55 degrees C. to reduce the concentration of the decomposition products in the electrically insulating layer; and disposing a gas barrier layer about the electrically insulating layer.

A cable includes a pair of conductors extending longitudinally and spaced apart from each other, an inner insulating layer circumferentially wrapped around an outside of the conductors and fixing the conductors, a conductive shielding layer circumferentially wrapped around an outside of the inner insulating layer, and an outer insulating layer circumferentially wrapped around an outer peripheral surface of the conductive shielding layer. At least one of the conductive shielding layer and the outer insulating layer includes a pair of diametrically opposed circumferential halves. Each circumferential half surrounds a part of a circumference of the inner insulating layer and extends longitudinally.