A system and method for assisting users of electrical extensions cords to detangle the cords as quickly and efficiently as possible. The improved extension cords features markings on regions of the cord to assist the user in locating the part or section of the cord associated with a single end.

A cable management system includes multiple cables, each having a unique identifier associated therewith and each including first and second barcodes including the unique identifier, the first barcode located proximate a first end of the cable, the second barcode located proximate a second end of the cable. The system also includes a barcode scanner to scan barcodes of the cables, the barcode scanner includes a clip to receive one of the cables. The system also includes a mobile computing device having a processor, data storage medium, communication unit, and user interface including a display. The mobile computing device is configured to receive via the user interface first end location information for a first cable, receive from the barcode scanner the first barcode of the first cable, and save and display the first end location information in association with the unique identifier of the first cable included in the first barcode.

A cable management system includes a cable bundling system for tracking a plurality of cables included in a cable bundle. The cable bundling system includes a pair of cable bundlers, including a first cable bundler for installing a first end of a cable, and a second cable bundler for installing a second end of the cable.

A method of marking a location of interest on a power cable, including a) identifying a location of interest on a layer of the power cable in a process of manufacturing the power cable, and b) providing a marker at the location of interest, the marker being able to transmit radiation.

A cable management system includes multiple cables, each having a unique identifier associated therewith and each including first and second barcodes including the unique identifier, the first barcode located proximate a first end of the cable, the second barcode located proximate a second end of the cable. The system also includes a barcode scanner to scan barcodes of the cables, the barcode scanner includes a clip to receive one of the cables. The system also includes a mobile computing device having a processor, data storage medium, communication unit, and user interface including a display. The mobile computing device is configured to receive via the user interface first end location information for a first cable, receive from the barcode scanner the first barcode of the first cable, and save and display the first end location information in association with the unique identifier of the first cable included in the first barcode.

An electrical cable assembly comprising a first electrical circuit comprising at least two insulated conductors, a second electrical circuit, and a conductive metallic armor encasing the first and second electrical circuits, wherein the conductive metallic armor provides a return ground path. The second electrical circuit comprising at least two control insulated conductors, a jacket surrounding the control insulated conductors, and a wrap surrounding the jacket which is surrounding the control insulated conductors.

In a medium conveyed in a first direction, a first slit has a square shape including first, second, third, and fourth sides. A second slit is positioned downstream from the first slit in the first direction and has a square shape including fifth, sixth, seventh, and eighth sides. The first, second, fifth, and sixth sides are parallel to the first direction. The third, fourth, seventh, and eighth sides are parallel to a second direction orthogonal to the first direction. The third and seventh sides are positioned upstream from the fourth and eighth sides in the first direction, respectively. A first print label spans across the first and second sides. A second print label spans across the fifth and sixth sides. A mark has an upstream edge in the first direction positioned downstream from the fourth side and a downstream edge in the first direction positioned upstream from the seventh side.

Cable sheathing compositions are provided for use in laser marking methods. Cable sheathing compositions include amounts of laser marking additives and color concentrates to enhance the absorption of laser energy and create an indelible mark. Laser marking methods employ cables formed with sheathing compositions and provide advantages to both the speed and power efficiency required by the laser source, as well as the quality and contrast ratio of the resulting laser mark. Cable manufacturing methods and apparatus employing the laser marking methods are also contemplated.

A method according to the teachings of the present disclosure may include disposing a sheath around a conductor assembly, with an outer surface of the sheath defining spaced apart crowns and valleys. An outlet of at least one ink jet print head may be positioned adjacent the sheath at an angle of 60 degrees to 120 degrees with respect to a longitudinal axis of the sheath. The method may also include using at least one ink jet print head to print marking indicia on the sheath, the marking indicia indicating at least characteristic of the electrical cable assembly.

A method according to the teachings of the present disclosure may include disposing a sheath around a conductor assembly, with an outer surface of the sheath defining spaced apart crowns and valleys. An outlet of at least one ink jet print head may be positioned adjacent the sheath at an angle of 60 degrees to 120 degrees with respect to a longitudinal axis of the sheath. The method may also include using at least one ink jet print head to print marking indicia on the sheath, the marking indicia indicating at least characteristic of the electrical cable assembly.