A composite cable that enables to easily restrain falling-off of separator dust at the time of peeling off a sheath, in comparison with composite cables in the conventional art. The composite cable includes a plurality of wires, a separator that covers the outer circumference of the plurality of wires all together, a sheath that covers the outer circumference of the separator, and an inclusion that is interposed between the separator and the sheath. The separator has a base layer composed of a polymer and an adhesive layer formed on the surface of the base layer on the inclusion side. In the composite cable, the adhesive layer is adhered to the inclusion.

A composite cable that enables to easily restrain falling-off of separator dust at the time of peeling off a sheath, in comparison with composite cables in the conventional art. The composite cable includes a plurality of wires, a separator that covers the outer circumference of the plurality of wires all together, a sheath that covers the outer circumference of the separator, and an inclusion that is interposed between the separator and the sheath. The separator has a base layer composed of a polymer and an adhesive layer formed on the surface of the base layer on the inclusion side. In the composite cable, the adhesive layer is adhered to the inclusion.

The present invention relates to a data cable. An embodiment of the data cable comprises at least one wire pair and an internal element. The at least one wire pair has two wires running parallel in the longitudinal direction of the data cable. The internal element has at least one flat section. The at least one wire pair and the internal element are arranged in the data cable in such a way that the at least one wire pair lies against the at least one flat section of the internal element.

The present invention relates to a data cable. An embodiment of the data cable comprises at least one wire pair and an internal element. The at least one wire pair has two wires running parallel in the longitudinal direction of the data cable. The internal element has at least one flat section. The at least one wire pair and the internal element are arranged in the data cable in such a way that the at least one wire pair lies against the at least one flat section of the internal element.

Reduced-pair Ethernet patch cords include a twisted pair cable that has a pair of insulated conductors that are contained within a cable jacket. A connector is mounted on a first end of the cable. The connector includes a connector housing and a strain relief unit that is mounted on the cable at the interface between the cable and the connector housing. The strain relief unit includes a plurality of internal protrusions that contact the cable jacket.

Reduced-pair Ethernet patch cords include a twisted pair cable that has a pair of insulated conductors that are contained within a cable jacket. A connector is mounted on a first end of the cable. The connector includes a connector housing and a strain relief unit that is mounted on the cable at the interface between the cable and the connector housing. The strain relief unit includes a plurality of internal protrusions that contact the cable jacket.

A twisted pair cabling line and method comprising, a source of at least two twisted pairs, a source of planar shield, a cabling station, that combines the twisted pairs and the shield into a non-twisted cable, a twisting station that twists the cable that is produced by the cabling station, a twisting space between the cabling station and the twisting station, in which the non-twisted cable produced by the cabling station is twisted, to thereby form the shield into a figure-8 cross section having two loops, with a twisted pair in each loop, and a cable storage station.

A twisted pair cabling line and method comprising, a source of at least two twisted pairs, a source of planar shield, a cabling station, that combines the twisted pairs and the shield into a non-twisted cable, a twisting station that twists the cable that is produced by the cabling station, a twisting space between the cabling station and the twisting station, in which the non-twisted cable produced by the cabling station is twisted, to thereby form the shield into a figure-8 cross section having two loops, with a twisted pair in each loop, and a cable storage station.

A composite cable includes a pair of first electric wires, a twisted pair wire formed by twisting a pair of second electric wires having a smaller outer diameter than the first electric wires, a tape member wound into a spiral around an assembly that is formed by twisting the pair of first electric wires and the twisted pair wire together, and a sheath covering an outer periphery of the tape member. The tape member and the sheath includes an inwardly projecting part formed in a spiral along a cable longitudinal direction and formed so as to enter inward at least one of a valley part between the two first electric wires and valley parts between the first electric wires and the twisted pair wire. The inwardly projecting part has a projecting length of not less than 3% of an outer diameter of the first electric wires.

A composite cable includes a pair of first electric wires, a twisted pair wire formed by twisting a pair of second electric wires having a smaller outer diameter than the first electric wires, a tape member wound into a spiral around an assembly that is formed by twisting the pair of first electric wires and the twisted pair wire together, and a sheath covering an outer periphery of the tape member. The tape member and the sheath includes an inwardly projecting part formed in a spiral along a cable longitudinal direction and formed so as to enter inward at least one of a valley part between the two first electric wires and valley parts between the first electric wires and the twisted pair wire. The inwardly projecting part has a projecting length of not less than 3% of an outer diameter of the first electric wires.