An automotive communications cable includes a cable jacket, a pair of twisted conductors disposed within the cable jacket, and two or more insulating strands disposed within the cable jacket. The two or more insulating strands include a central insulating strand disposed between a first conductor in the pair of twisted conductors and a second conductor in the pair of twisted conductors.

A smooth torque balanced cable that includes an electrically conductive cable core for transmitting electrical power. The smooth torque balanced cable also has a first polymer surrounding said cable core. An inner layer of a plurality of first armor wires surrounds the cable core. The first armor wires being in partial contact with the first polymer and partial contact with a second polymer disposed opposite the first polymer.

Downhole connection assemblies include a connector to receive a conductor and pin at opposite ends. The connector includes a first electrical collet, a separate second electrical collet and a sleeve. The first collet includes a first recess in a first end to receive the conductor and a second recess in a second end to receive the pin. The second collet is positioned around the pin and separated from the first collet. The sleeve is positioned around the pin, first collet and the second collet. Downhole cables include a center electrical conductor, a first insulator positioned around the center conductor, a second insulator positioned around the first insulator, and a pressure tube surrounding the second insulator. The cable further includes one or more slots extending axially along a length of the second insulator, or one or more slots extending axially along an inner diameter of the pressure tube.

A cable includes a pair of insulated core wires extending parallel to each other, each of the insulated core wires having a central conductor and a core insulation layer wrapped around the central conductor, an inner insulation layer wrapped around the core insulation layers, a metal shielding layer wrapped around the inner insulation layer, an outer insulation layer wrapped around the metal shielding layer, and a single drain wire disposed between the metal shielding layer and the outer insulation layer. The core insulation layers of the pair of insulated core wires abut against each other at a pair of first sides of the core insulation layers facing toward each other. The single drain wire is located at a second side of the core insulation layer of one of the pair of insulated core wires facing away from the other of the pair of insulated core wires in a radial direction.

A non-fluid cooled fast-charge electric vehicle (EV) cable includes a pair of cabled insulated conductors, a binder, a thermal layer of a synthetic porous material having extremely low density and extremely low thermal conductivity in a blanket, with a fiberglass cover and a jacket.

This disclosure describes electric vehicle supply equipment (EVSE) assemblies for use when charging plug-in electrified vehicles. An exemplary EVSE assembly may include a charger coupler and a cable connected to the charger coupler. The cable may include a plurality of conductor wires and a gap extrusion positioned within a gap between the plurality of conductor wires. The gap extrusion may include a non-symmetrical cross-sectional shape and may be made of a thermoplastic elastomer (TPE) material. The cable may be manufactured in a staggered extrusion process in which the gap extrusion is fed into a gap of a wound conductor wire bunch of the cable.

Downhole connection assemblies include a connector to receive a conductor and pin at opposite ends. The connector includes a first electrical collet, a separate second electrical collet and a sleeve. The first collet includes a first recess in a first end to receive the conductor and a second recess in a second end to receive the pin. The second collet is positioned around the pin and separated from the first collet. The sleeve is positioned around the pin, first collet and the second collet. Downhole cables include a center electrical conductor, a first insulator positioned around the center conductor, a second insulator positioned around the first insulator, and a pressure tube surrounding the second insulator. The cable further includes one or more slots extending axially along a length of the second insulator, or one or more slots extending axially along an inner diameter of the pressure tube.

A cable includes a cable core including a linear filler, and a plurality of core wires for signal transmission, a shield layer covering around the cable core, and a sheath covering around the shield layer. The filler includes a first filler provided at a cable center, and a plurality of second fillers provided around the first filler to form a cross-shape with the first filler in a cross-section perpendicular to a cable longitudinal direction. The cable corethe cable core is configured in such a manner that the plurality of core wires and the plurality of second fillers are spirally twisted around the first filler to be alternately arranged in a circumferential direction.

This disclosure describes electric vehicle supply equipment (EVSE) assemblies for use when charging plug-in electrified vehicles. An exemplary EVSE assembly may include a charger coupler and a cable connected to the charger coupler. The cable may include a plurality of conductor wires and a gap extrusion positioned within a gap between the plurality of conductor wires. The gap extrusion may include a non-symmetrical cross-sectional shape and may be made of a thermoplastic elastomer (TPE) material. The cable may be manufactured in a staggered extrusion process in which the gap extrusion is fed into a gap of a wound conductor wire bunch of the cable.

The present invention discloses a mobile dedicated cable for a medical Computed Tomography (CT) bed, comprising an inner sheath layer, a first Teflon® belt, a signal cable layer, a second Teflon® belt, a braided layer and an outer sheath layer, which are coaxially arranged from inside to outside in sequence. The inner sheath layer comprises a PVC filling strip wrapped by the first Teflon® belt, and a plurality of bulletproof filaments arranged in the center of the PVC filling strip. The signal cable layer comprises a plurality of signal lines evenly arranged therein, each of which are circumscribed with the first Teflon® belt and the second Teflon® belt, and with two signal lines adjacent thereto. The cable of the invention has improved flexibility and working life, thereby being suitable for the medical CT bed.