An optical-electric composite cable includes a cable unit, at least one metal wire, and a sheath. The cable unit includes at least one optical fiber and a twisted pair wire twisted with the at least one optical fiber. The at least one metal wire is disposed around the cable unit. The sheath surrounds the cable unit and the at least one metal wire.

An optical-electric composite cable includes a cable unit, at least one metal wire, and a sheath. The cable unit includes at least one optical fiber and a twisted pair wire twisted with the at least one optical fiber. The at least one metal wire is disposed around the cable unit. The sheath surrounds the cable unit and the at least one metal wire.

A shielded electrical cable includes conductor sets extending along a length of the cable and spaced apart from each other along a width of the cable. First and second shielding films are disposed on opposite sides of the cable and include cover portions and pinched portions arranged such that, in transverse cross section, the cover portions of the films in combination substantially surround each conductor set. An adhesive layer bonds the shielding films together in the pinched portions of the cable. A transverse bending of the cable at a cable location of no more than 180 degrees over an inner radius of at most 2 mm causes a cable impedance of the selected insulated conductor proximate the cable location to vary by no more than 2 percent from an initial cable impedance measured at the cable location in an unbent configuration.

A shielded electrical ribbon cable includes adjacent first and second longitudinal conductor sets where each conductor set includes two or more insulated conductors. The first conductor set also includes a ground conductor that generally lies in the plane of the insulated conductors of the first conductor set. At least 90% of the periphery of each conductor set is encompassed by a shielding film. First and second non-conductive polymeric films are disposed on opposite sides of the cable and form cover portions substantially surrounding each conductor set, and pinched portions on each side of each conductor set. When the cable is laid flat, the distance between the center of the ground conductor of the first conductor set and the center of the nearest insulated conductor of the second conductor set is σ1, the center-to-center spacing of the insulated conductors of the second conductor set is σ2, and σ1/σ2 is greater than 0.7.

Ribbon cables including a plurality of spaced apart substantially parallel conductors extending along a length of the cable and arranged along a width of the cable, and first and second insulative layers disposed on opposite sides of and substantially coextensive with the plurality of conductors along the length and width of the cable are described. Each insulative layer may be adhered to the conductors and may include alternating substantially parallel thicker and thinner portions extending along the length of the cable. The thicker portions of the first and second insulative layers are substantially aligned in one to one correspondence. Each corresponding thicker portion of the first and second insulative layers have at least one conductor in the plurality of conductors disposed therebetween. The thicker portions may have an effective dielectric constant less than 2.

A cable connection structure includes: a substrate including a first core wire connection electrode, a second core wire connection electrode, and a shield connection electrode; a single-wire cable including a first core wire, and an insulant; at least two coaxial cables each including a second core wire, an inner insulant, a shield, and an outer insulant, wherein the second core wire, the inner insulant, and the shield are exposed in a step-by-step manner at a distal end portion, and the second core wire and the shield are respectively connected to the second core wire connection electrode and the shield connection electrode; and a conductive member connecting exposed portions of the shields. The conductive member is disposed directly on an upper surface of the insulant, and connects the shields on the shield connection electrode and/or a position closer to a proximal end side than the shield connection electrode.

A cable connection structure includes: a substrate including a first core wire connection electrode, a second core wire connection electrode, and a shield connection electrode; a single-wire cable including a first core wire, and an insulant; at least two coaxial cables each including a second core wire, an inner insulant, a shield, and an outer insulant, wherein the second core wire, the inner insulant, and the shield are exposed in a step-by-step manner at a distal end portion, and the second core wire and the shield are respectively connected to the second core wire connection electrode and the shield connection electrode; and a conductive member connecting exposed portions of the shields. The conductive member is disposed directly on an upper surface of the insulant, and connects the shields on the shield connection electrode and/or a position closer to a proximal end side than the shield connection electrode.

A signal transmission cable includes a signal line, an insulation layer configured to cover the signal line, and a plating layer configured to cover the insulation layer. An arithmetic average roughness Ra of an outer peripheral surface of the insulation layer is between 0.6 m and 10 m inclusive. A method of manufacturing the signal transmission cable includes covering the signal line with the insulation layer, followed by conducting a dry-ice-blasting on the outer peripheral surface of the insulation layer, followed by conducting a corona discharge exposure process on the outer peripheral surface, and forming the plating layer on the outer peripheral surface.

An electrical cable includes a conductor assembly having conductors and an insulator. The electrical cable includes a cable shield wrapped around the conductor assembly having an inner edge at a first end segment and an outer edge at a second end segment. The second end segment is wrapped over the inner edge and the first end segment to form a flap covering the inner edge and the first end segment. The second end segment forms a void at the inner edge. The electrical cable includes a void shield on the outer surface between the insulator and the cable shield. The void shield extends between a first end and a second end. The void shield is aligned with the void and spans entirely across the void. The cable shield is electrically connected to the void shield.

An electrical cable includes a conductor assembly having conductors and an insulator. The electrical cable includes a cable shield wrapped around the conductor assembly having an inner edge at a first end segment and an outer edge at a second end segment. The second end segment is wrapped over the inner edge and the first end segment to form a flap covering the inner edge and the first end segment. The second end segment forms a void at the inner edge. The electrical cable includes a void shield on the outer surface between the insulator and the cable shield. The void shield extends between a first end and a second end. The void shield is aligned with the void and spans entirely across the void. The cable shield is electrically connected to the void shield.