Various examples disclosed relate to a cable clip. The cable clip includes a curved body including a polymeric material and extending from a first end to a second end, the first end and second end spaced from each other to define a gap therebetween. The curved body includes a first surface and an opposed second surface with a thickness of the clip defined therebetween.

A cable identification system is provided. The cable identification system includes a cable sleeve with some predetermined unique properties. The cable sleeve is adapted to receive a cable therein. The cable includes one or more electrical conductors therein. The cable identification system further includes a portable measuring device configured to detect the predetermined unique properties of the cable sleeve when positioned adjacent the cable at any point along the cable.

A method for applying a label to an electrical cable having an outermost sheath with convolutions defining alternating peaks and valleys, the method including attaching the label to the sheath. The label includes a label substrate, the label substrate includes an attaching side, the attaching side being attached through an adhesive; and the label attaches to the peaks and spans across the valleys and circumferentially wraps around the sheath.

The present disclosure relates to a color-coded cable identification assembly and a cable. The cable identification assembly comprises: a support element including a fixing element adapted to fix the support element to a cable; and a plurality of identification elements, which are detachably mounted on the support element with the cable being located between the support element and the plurality of identification elements. Each identification element has a predetermined color so that the plurality of identification elements are capable of forming a predetermined color code to identify the cable. The cable identification assembly according to the present disclosure can be very easily and rapidly mounted to the cable, thereby greatly saving the installation time of workers and thus reducing the labor cost and the chance of making a mistake. Compared with a conventional adhesive tape, the cable identification assembly according to the present disclosure can meet the requirements such as anti-ultraviolet, anti-aging and reuse, thereby further reducing the cost of the cable identification assembly.

The present disclosure relates to a color-coded cable identification assembly and a cable. The cable identification assembly comprises: a support element including a fixing element adapted to fix the support element to a cable; and a plurality of identification elements, which are detachably mounted on the support element with the cable being located between the support element and the plurality of identification elements. Each identification element has a predetermined color so that the plurality of identification elements are capable of forming a predetermined color code to identify the cable. The cable identification assembly according to the present disclosure can be very easily and rapidly mounted to the cable, thereby greatly saving the installation time of workers and thus reducing the labor cost and the chance of making a mistake. Compared with a conventional adhesive tape, the cable identification assembly according to the present disclosure can meet the requirements such as anti-ultraviolet, anti-aging and reuse, thereby further reducing the cost of the cable identification assembly.

A sensing system for identification of at least one cable is provided. The sensing system includes a transceiver and a controller. The transceiver is configured to transmit mmWave signals and receive reflected mmWave signals. The controller is in communication with the transceiver. The controller is configured to direct the transceiver to transmit the mmWave signals. The controller is further configured to process the reflected mmWave signals and identify highly reflective-to-mmWave material identification markings associated with the at least one cable from the processed reflected mmWave signals.

A wiring member includes: a flat wiring member including a plurality of terminal parts; and a plurality of identification parts provided to correspond to some of the plurality of terminal parts, wherein the plurality of identification parts are made to each provide a piece of identification information different from each other, the flat wiring member can change a form between a folding form of being folded and a developed form of extending larger than the folding form, and the plurality of identification parts are provided in the flat wiring member so that a distribution region of the plurality of identification parts in the folding form is smaller than a distribution region of the plurality of identification parts in the developed form.

The present disclosure relates to a color-coded cable identification assembly and a cable. The cable identification assembly comprises: a support element including a fixing element adapted to fix the support element to a cable; and a plurality of identification elements, which are detachably mounted on the support element with the cable being located between the support element and the plurality of identification elements. Each identification element has a predetermined color so that the plurality of identification elements are capable of forming a predetermined color code to identify the cable. The cable identification assembly according to the present disclosure can be very easily and rapidly mounted to the cable, thereby greatly saving the installation time of workers and thus reducing the labor cost and the chance of making a mistake. Compared with a conventional adhesive tape, the cable identification assembly according to the present disclosure can meet the requirements such as anti-ultraviolet, anti-aging and reuse, thereby further reducing the cost of the cable identification assembly.

An apparatus, system and method for organizing and identifying cables can include cable organizers such as hollow, tubular cylinders. Each cable organizer can slidably and releasably engage a subset of the cables simultaneously. Each cable organizer can be freely movable along a length of the subset of the cables under the influence of an externally applied force; released and held in place via static friction. In addition, unique identifiers can be attached and/or labeled on respective ones of the cable organizers to separately identify each cable and/or subset of bundled cables.

The present disclosure describes cable cuffs. A cable cuff may include a first half including a main body with a first cable recess and a first securing feature, and a second half including a main body with a second cable recess and a second securing feature. The first cable recess may include a first flex retention section and the second cable recess may include a second flex retention section. The first half and the second half may be connected via a hinge. The first half is mated with the second half such that the first and second cable recesses form a pocket for receiving and grasping a cable. The first and second securing features engage to maintain the first half and the second half in a mated condition. The first and second flex retention sections reside within and extend into the pocket to engage a cable grasped therein. Cable management systems are also provided herein.