Electrical cables and optical waveguides are disclosed as including an electrically insulative foam. The electrically insulative foam can coat at least one electrical conductor of the electrical cable. The electrically insulative foam can coat the optical fiber of the waveguide. The electrically insulative foam can also define a waveguide.

The present disclosure relates to a monolithic thin-film lead assembly and methods of microfabricating a monolithic thin-film lead assembly. Particularly, aspects of the present disclosure are directed to a monolithic thin-film lead assembly that includes a cable having a proximal end, a distal end, a supporting structure that extends from the proximal end to the distal end, and a plurality of conductive traces formed on a portion of the supporting structure. The supporting structure includes one or more layers of dielectric material. The monolithic thin-film lead assembly may further include an electrode assembly formed on the supporting structure at the distal end of the cable. The electrode assembly includes one or more electrodes in electrical connection with one or more conductive traces of the plurality of conductive traces.

A shielded electrical cable includes a conductor set and two generally parallel shielding films disposed around the conductor set. The conductor set includes one or more substantially parallel longitudinal insulated conductors. The shielding films include a parallel portion wherein the shielding films are substantially parallel. The parallel portion is configured to electrically isolate the conductor set.

Sensor assembly includes a modular device and a cable assembly configured to communicatively couple the modular device and a control system and transmit digital signals therethrough. The cable assembly includes a cable jacket surrounding a channel and a twisted pair extending through the channel. The coated twisted pair includes first and second signal wires that each include a respective signal conductor and an insulation layer that surrounds the respective signal conductor. The coated twisted pair also includes a ground conductor. The first and second signal wires are twisted about one another. A twist exterior is defined by corresponding exterior surfaces of the first and second signal wires and the ground conductor. The twist exterior is coated with a conductive material.

Probe assembly includes an ultrasound probe and a cable assembly configured to communicatively couple the ultrasound probe to a control system and transmit signals therethrough. The cable assembly includes a cable jacket surrounding a channel of the cable assembly. The cable assembly also includes a plurality of wire pairs extending through the channel. The channel being sized and shaped to permit the wire pairs to move relative to one another within the channel when the probe assembly is moved. The wire pairs and the channel are configured to have a designated pack ratio (Area.sup.WPS/Area.sup.C). The Area.sup.WPS includes a collective cross-sectional area of the wire pairs, and the Area.sup.C is equal to a cross-sectional area of the channel.

A cable (210) includes a center conductor (220). An insulating material in the form of a layer (225) surrounds the center conductor. A sparse shield (232) partially surrounds the insulating material. The sparse shield may include a plurality of conductors, which are grouped adjacent to one another within a space around the insulating layer that has a length that is less than 25% of the total circumference of the insulating layer. An insulating jacket (227) covers the sparse shield and the remainder of the cable. The cable may be used in a cable assembly (10).

An improved Ethernet cable with an undulating and folding jacket housing external spatial channels. The undulating housing provides for multiple connection configurations from a flat cable to rectangular block configurations. The cable has a plurality of internal electronic signal channels, each channel having a pair of conductors. Each channel is also further isolated by a multi-layer protective shield, the protective shield encasing the pair of conductors. This unique design meets the new requirements of CAT8 cables, and substantially enhances video and audio streaming and transmission speeds, while eliminating deleterious effects of prior cables.

A cable assembly includes a plurality of wires. Each wire has a first end, intermediate section, and a second end. The intermediate sections of the respective wires are detached from each other. A conductive shield surrounds the respective intermediate sections of the plurality of wires. Each wire includes a conductor, an insulating layer that surrounds the conductor, and a conductive coating formed on an outside surface of the insulating layer.

A shielded electrical cable includes a conductor set and two generally parallel shielding films disposed around the conductor set. The conductor set includes one or more substantially parallel longitudinal insulated conductors. The shielding films include a parallel portion wherein the shielding films are substantially parallel. The parallel portion is configured to electrically isolate the conductor set.

It is aimed to provide an exterior wiring harness which can be routed in a flat space formed between a plurality of electrical members. An exterior wiring harness (10) includes a plurality of wires (11) and an exterior body (12) formed by surrounding outer peripheries of the plurality of wires (11) by a sheet (13) made of fibrous synthetic resin. The exterior body (12) includes a flat portion (15) having a flat cross-sectional shape and other parts (14) connected to the flat portion (15) and different from the flat portion. A length (L1) of the flat portion (15) in a minor axis direction is set to be smaller than a width of a clearance formed between a plurality of electrical members. A maximum value (L3) of the other parts (14) in the minor axis direction of the flat portion is set to be larger than the width of the clearance.