A shielded electrical cable (50) includes conductor sets (51a, 51b) spaced apart along a width of the cable and extending along a length of the cable. Each conductor set includes first and second insulated conductors (52a, 52b), one or two drain grounding wires (54) disposed between the first and second insulated conductors, first and second conductive shielding films (56a, 56b) disposed on opposite first and second sides of the conductor set, and an adhesive layer (59) bonding the first shielding film to the second shielding film.

A wire harness includes a conducting path. The conducting path includes a conductor and a sheath. The conductor includes a first conductor and a second conductor which are connected to each other. The first conductor is disposed in a route regulation section requiring route regulation. The second conductor is disposed in another section than the route regulation section. The conductor in which the first conductor and the second conductor are connected to each other is covered with the sheath.

In a splice connection member, a core wire holder is integrally formed on an interior of each of a plurality of depressions into which coated wires can be guided. A plurality of pressure blades are provided opposite each other on a wire introduction opening side of the depressions, the pair of pressure blades separated by a distance smaller than an inlet diameter of the wire introduction opening. Each of the pressure blades includes a plurality of blade tips separated by a distance in an axis direction of the coated wires smaller than a thickness of the coating, and the core wire holder includes a plurality of pressure portions. A communicating groove is formed in each of the depressions so as to be open on two ends, passing between the plurality of pairs of blade tips, the communicating groove extending in a circumference direction of each of the coated wires.

Disclosed herein are a power cable and a power supply system including the power cable. The power cable includes a 12VHPWR connector disposed at a first end of the power cable; a plurality of PCIE 24 connectors disposed at a second end of the power cable; and a converting circuit coupled with the 12VHPWR connector via a first cable and coupled with the plurality of the PCIE 24 connectors via a plurality of second cables. The converting circuit includes at least one AND gate configured to couple sensing pins of the plurality of PCIE 24 connectors with a sensing pin of the 12VHPWR connector.

A wiring body with assembly assisting component includes a wiring body and an assembly assisting component. The wiring body includes a wiring component (for example, an electrical wiring). The wiring body is a wire harness, for example. The assembly assisting component detachably holds at least a part of the wiring body along a certain route.

An induction cable contains a plurality of cable conductors each having a conductor strand surrounded by insulation. The conductor strand contains a plurality of conductor sections which are spaced apart in the longitudinal cable direction at resonance dividing points by insulating intermediate pieces. The induction cable furthermore has a coupling device on which a plurality of the conductor strands are separated forming coupling ends at coupling positions. The coupling ends are connected to each other via the coupling device. A simple providing and installing of the induction cable and a simple replacement of damaged cable parts is thus enabled.

Technology capable of reducing the number of tubular protective members in a wiring member is provided. The wiring member includes: multiple electric wires that branch into multiple branch lines from a main line at a branch position; a connection component provided at an end portion of a target branch line among the branch lines; and a resin molded body that includes a main body portion and an extending portion. The main body portion covers all of the electric wires at the branch position, and the extending portion extends from the main body portion and covers a portion of the target branch line that is between the main body portion and the connection component.

The purpose of the present invention is to provide a wire harness that can easily bend along a routing path. A wire harness (10) comprises: two electric wires (20) each having a core wire (21) and an insulating coating part (22) that coats the outer periphery of the core wire (21); and a joining part (23) that joins the coating parts (22) with each other in a condition in which the two electric wires (20) are parallel. The joining part (23) joins with each other the portions of the coating parts (22) of the two electric wires (20) that cover end parts in the width direction of the core wires (21), and is configured so as to be capable of bending deformation between a first attitude in which the core wires (21) of the two electric wires are parallel in the mutual width direction thereof, and a second attitude in which the core wires (21) of the two electric wires (20) are parallel in the mutual thickness direction thereof. The wire harness (10) has a first bending part in which the two electric wires (20) are bent in the thickness direction in the first attitude, and a second bending part in which the two electric wires (20) are bent in the thickness direction in the second attitude.

The present disclosure relates to a joining method for a terminal-equipped electric wire in which a plurality of terminal-equipped electric wires including a first terminal-equipped electric wire and a second terminal-equipped electric wire are joined each other. The joining method includes a first step of placing at least a conductor core wire of the first terminal-equipped electric wire among the plurality of terminal-equipped electric wires on a horn and crushing the conductor core wire of the first terminal-equipped electric wire by the horn and an anvil, and a second step of placing a conductor core wire of at least the second terminal-equipped electric wire among the plurality of terminal-equipped electric wires on the crushed conductor core wire and ultrasonically joining the conductor core wires by the horn and the anvil.

Disclosed herein are a power cable and a power supply system including the power cable. The power cable includes a 12VHPWR connector disposed at a first end of the power cable; a plurality of PCIE 24 connectors disposed at a second end of the power cable; and a converting circuit coupled with the 12VHPWR connector via a first cable and coupled with the plurality of the PCIE 24 connectors via a plurality of second cables. The converting circuit includes at least one AND gate configured to couple sensing pins of the plurality of PCIE 24 connectors with a sensing pin of the 12VHPWR connector.