A cable with braided shield includes a conductor, an insulation layer arranged to cover a periphery of the conductor, a braided shield layer arranged to cover a periphery of the insulation layer, and a sheath arranged to cover a periphery of the braided shield layer. The braided shield layer includes an inner braided shield layer, and an outer braided shield layer provided on a periphery of the inner braided shield layer. The inner braided shield layer includes a braided shield braided to cross metal wires. The outer braided shield layer includes a braided shield braided to cross a copper tinsel wire and a metal wire.

A cable with braided shield includes a conductor, an insulation layer arranged to cover a periphery of the conductor, a braided shield layer arranged to cover a periphery of the insulation layer, and a sheath arranged to cover a periphery of the braided shield layer. The braided shield layer includes an inner braided shield layer, and an outer braided shield layer provided on a periphery of the inner braided shield layer. The inner braided shield layer includes a braided shield braided to cross metal wires. The outer braided shield layer includes a braided shield braided to cross a copper tinsel wire and a metal wire.

The invention relates to a power cable comprising at least one conductor element (10) and which additionally comprises at least one strip (16) arranged on at least one portion of the length of said conductor element (10). The strip (16) is equipped with a winding-free energy recovery system which supplies the strip (16) with electric current from the energy available in the conductor (10). The strip (16) has a plurality of elements (18) which generate light from this electric current.

A cable includes a flexible coated wire, a multi joint support member, and a flexible sheath member that covers the multi joint support member and the coated wire. The multi-joint support member is formed by pivotally coupling adjacent ones of a plurality of link members arranged in series. Turning of the multi joint support member in a first direction in a direction intersecting a serial direction is allowed until becoming equal to a predetermined radius of curvature and turning of the multi joint support member in a second direction, which is opposite to the first direction, is restricted.

A robot system includes a plurality of drive parts, a control unit that controls power for driving the drive parts by switching, and a cable that connects the drive parts and the control unit, wherein the cable has a plurality of power lines, a plurality of frame ground lines, and a shield, a first interposition object is provided between the plurality of power lines and the shield, and, in a section of the cable, respective centers of the plurality of frame ground lines are closer to the shield than respective centers of the plurality of power lines.

A cable with braided shield includes a conductor, an insulation layer arranged to cover a periphery of the conductor, a braided shield layer arranged to cover a periphery of the insulation layer, and a sheath arranged to cover a periphery of the braided shield layer. The braided shield layer includes a braided shield braided to cross a copper tinsel wire and a metal wire. An outer diameter D1 of the copper tinsel wire is larger than an outer diameter D2 of the metal wire.

A flexible electric cable for the electric power supply of planes on the ground is subjected to an unspooling and spooling process, the cable having a conductor layout including a plurality of insulated energy supply conductors which are arranged concentrically with respect to a longitudinal central axis of the generally circular in cross-section cable, several insulated neutral conductors which are arranged concentrically with respect to the central axis, and several insulated control conductors which are arranged concentrically with respect to the central axis. A non-metallic, tension- and compression-resistant support member is disposed at the center of the cable, which support member extends over the length of the cable. At least the energy supply conductors include CCA wires having a copper content of at least 15%.

A robot includes a robot body and a feeding cable. The robot body is disposed in an explosion-proof region. The feeding cable is disposed in the explosion-proof region, and power is supplied to the robot body through the feeding cable. The feeding cable includes a plurality of wires and a cover. Each of the plurality of wires includes a conductor and an insulator covering the conductor. The cover covers the plurality of wires and has a thickness of equal to or greater than 10 percent of an outer diameter of the feeding cable.

A ribbon cable having an additional conductor track for breaking detection, includes a carrier film having at least one electrical conductor track, wherein the carrier film has a first connection region at a first end and a second connection region at a second end, wherein the first connection region can be arranged between the two panes of a laminated pane and the second connection region can be guided out of the laminated pane between the two panes, and wherein the electrical conductor tracks can electrically contact an electrical functional element in the first connection region, wherein the carrier film has an additional conductor track which is designed to be loop-shaped, so that an ohmic resistance between the two ends of the additional conductor track can be measured.

An electrical cable includes a plurality of conductors forming a conductor core, one or more insulation layers at least partially surrounding at least one of the plurality of conductors, an outer jacket surrounding the conductor core and a film applied to the exterior surface of the outer jacket. The film includes high visibility particles. Methods of forming electrical cables are also described herein.