Conductor cover applicators may define a mouth, or may incorporate movable jaws that open and close a mouth, for receiving a cable. The applicators may have a separator for spreading open a conductor cover, so that the cover can be fed through the applicator onto the cable. Methods of use and other variations are disclosed.

An electric wire conductor having both flexibility and a space-saving property, a covered electric wire, and a wiring harness containing such an electric wire conductor. The electric wire conductor contains a plurality of elemental wires twisted together, and has a non-circular portion in which a cross section intersecting an axial direction of the wire strand has a non-circular shape. The cross section of the non-circular portion has a continuous vacancy capable of accommodating two or more of the elemental wires. Further, a covered electric wire contains the electric wire conductor and an insulator covering the electric wire conductor. Furthermore, a wiring harness contains the covered electric wire.

A sensor system for an electric power asset includes a sensor instrument coupleable to sensors associated with the electric power asset to receive sensor signals therefrom, and an antenna connection cable coupled to the sensor instrument. The antenna connection cable includes a cable sheath and a plurality of twisted pair signal carriers contained within the cable sheath to carry sensor signals received from the electric power asset. A first subset of the plurality of twisted pair signal carriers carry antenna signals and a second separate subset of the plurality of twisted pair signal carriers carry signals for partial discharge monitoring.

A sensor system for an electric power asset includes a sensor instrument coupleable to sensors associated with the electric power asset to receive sensor signals therefrom, and an antenna connection cable coupled to the sensor instrument. The antenna connection cable includes a cable sheath and a plurality of twisted pair signal carriers contained within the cable sheath to carry sensor signals received from the electric power asset. A first subset of the plurality of twisted pair signal carriers carry antenna signals and a second separate subset of the plurality of twisted pair signal carriers carry signals for partial discharge monitoring.

A shield connection structure that includes a tube made of metal; a flexible shield made of metal; and a ring that includes an inner ring externally fitted onto the tube and an outer ring, the ring being made of a same type of metal as the flexible shield, wherein the flexible shield is electrically connected to the tube via the ring when sandwiched between the inner ring and the outer ring.

A shield connection structure that includes a tube made of metal; a flexible shield made of metal; and a ring that includes an inner ring externally fitted onto the tube and an outer ring, the ring being made of a same type of metal as the flexible shield, wherein the flexible shield is electrically connected to the tube via the ring when sandwiched between the inner ring and the outer ring.

A rodent repellent fiber optic cable includes an outer jacket, one or more optical fibers, and a repellent electrostatically bonded to at least one component of the cable. The one or more optical fibers extend longitudinally through an interior of the cable. The repellent is preferably an olfactory stimulant, such as menthol, configured to repel rodents. In various embodiments, the cable also includes one or more separators and/or a sheath. In embodiments that employ separators, at least one optical fiber is wrapped in, or otherwise surrounded by a separator. In embodiments that employ a sheath, the sheath surrounds an assembly of the cable's internal components.

A rodent repellent cable includes a jacket, a transmission means for facilitating transmission of electrical current or data, and a repellent bonded to at least one component of the cable. A method of manufacturing the rodent repellent cable includes electrostatically bonding a repellent to one or more components of the cable and adding the jacket around the internal components of the cable. The repellent is preferably an olfactory stimulant configured to repel rodents. Prior to adding the jacket around the internal components, the method may also include wrapping, enclosing, or otherwise surrounding one or more of the transmission means with a separator and/or wrapping, enclosing, or otherwise surrounding an assembly of internal components with a sheath. Additionally, prior to adding the jacket around the internal components, an assembly of internal components may be passed through a cooling apparatus to cool the assembly to a pre-determined temperature.

A chair for particular use in clinical or hospital environments has a frame to which a support material is secured. The support material may form a chair back and/or a seat for the chair to provide support to the chair occupant. The support material may be made from a textile of interwoven strands wherein some of the interwoven strands include copper containing particles such as copper iodide or copper oxide within the textile fibers.

A chair for particular use in clinical or hospital environments has a frame to which a support material is secured. The support material may form a chair back and/or a seat for the chair to provide support to the chair occupant. The support material may be made from a textile of interwoven strands wherein some of the interwoven strands include copper containing particles such as copper iodide or copper oxide within the textile fibers.