A connector apparatus for connecting to a cable assembly that comprises coaxial cable and at least one wire and/or fluid conduit and/or further layer, wherein the connector apparatus comprises a housing that houses a connector and at least one further connector, wherein the connector is configured to electrically connect to the coaxial cable when the connector apparatus and the cable assembly are in an engaged state, the at least one further connector is configured to connect to the at least one wire and/or fluid conduit and/or further layer when the connector apparatus and the cable assembly are in the engaged state, the connector is configured to allow free rotation relative to the connector of the coaxial cable around an axis when the coaxial cable is electrically connected to the connector in the engaged state.

An article of manufacture comprising a first section having a first dielectric material and a second section having a second dielectric material and provided on an outer surface of the first section. The second dielectric material of the second section is more flexible than the first dielectric material of the first section, and the second section comprises elements of an organic material located partially on an outer surface of the second section. A coaxial cable using the article of manufacture and a method of manufacturing of the article are also disclosed.

A cable assembly (1) for medical radio frequency or microwave ablation. The cable assembly includes a coaxial cable (2) with an inner conductor (3), encompassed by a dielectric layer (4), encompassed by an outer conductor (5). The cable assembly (1) further includes a first cooling line (6) and a thermal conductive layer (7), which in a cross-sectional view encompasses the coaxial cable (2) and the first cooling line (6) in a circumferential manner. The thermal conductive layer (7) is configured to reduce a thermal peak caused by the coaxial cable (2) when transferring energy, by distributing thermal energy around the coaxial cable (2) and the first cooling line (6) in a circumferential manner.

A cable includes at least one inner conductor and an insulation layer surrounding the inner conductor. An outer conductive layer surrounds the insulation layer and center conductor and includes a carbon nanotube substrate having opposing face surfaces and edges. One or more metals are applied as layer(s) to the opposing face surfaces and edges of the carbon nanotube substrate for forming a metallized carbon nanotube substrate. The metallized carbon nanotube substrate is wrapped to surround the insulation layer and center conductor for forming the outer conductive layer. Embodiments of the invention include a braid layer positioned over the outer conductive layer. The braid layer is woven from of plurality of carbon nanotube yarn elements made of a plurality of carbon nanotube filaments. The carbon nanotube filaments include a carbon nanotube core and metal applied as a layer on the carbon nanotube core for forming a metallized carbon nanotube filaments and yarns woven to form the braid layer.