A wiring member includes a first sheet including a fusion layer, a second sheet, and at least one first wire-like transmission member provided between the first sheet and the second sheet. The first sheet and the second sheet are fixed to each other via the fusion layer in a direction intersecting with a longitudinal direction of the first wire-like transmission member.

An exemplary apparatus for operating with an electroencephalograms apparatus can be provided, which can include, for example a flexible conductor disposed in a shape of a coil, an electrode disposed on a first end of the flexible conductor, and a coupling configuration disposed on a second end of the flexible conductor, where the coupling configuration can be designed to couple the flexible conductor to the electroencephalograms apparatus. The flexible conductor can be stretchable.

A shielded electrical ribbon cable includes adjacent first and second longitudinal conductor sets where each conductor set includes two or more insulated conductors. The first conductor set also includes a ground conductor that generally lies in the plane of the insulated conductors of the first conductor set. At least 90% of the periphery of each conductor set is encompassed by a shielding film. First and second non-conductive polymeric films are disposed on opposite sides of the cable and form cover portions substantially surrounding each conductor set, and pinched portions on each side of each conductor set. When the cable is laid flat, the distance between the center of the ground conductor of the first conductor set and the center of the nearest insulated conductor of the second conductor set is σ1, the center-to-center spacing of the insulated conductors of the second conductor set is σ2, and σ1/σ2 is greater than 0.7.

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 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 further includes an interface formed on the supporting structure at the distal end of the cable. The interface includes electrodes and/or sensors in electrical connection with the conductive traces, and the supporting structure has at least one curved portion disposed between a first set of electrodes and a second set of electrodes, and/or between a first set of sensors and a second set of sensors.

An object is to provide a technique capable of easily identifying a type of a wiring member. A wiring member includes: a base member having a holding surface; and at least one wire-like transmission member held on the holding surface, wherein at least one missing wire-like transmission member identification mark indicating at least one missing wire-like transmission member position is provided on the holding surface.

An object is to provide a technique capable of simply fixing a wire-like transmission member to a sheet regardless of a type of the wire-like transmission member. A wiring member includes a sheet, a holding member fixed to the sheet, and a first wire-like transmission member held by the holding member. The bolding member includes a holding part in which a groove and a protrusion narrowing a width dimension of an opening part of the groove are formed. The first wire-like transmission member is housed in the groove.

An object is to provide a technique capable of simply fixing a wire-like transmission member to a sheet regardless of a type of the wire-like transmission member. A wiring member includes a sheet, a holding member fixed to the sheet, and a first wire-like transmission member held by the holding member. The bolding member includes a holding part in which a groove and a protrusion narrowing a width dimension of an opening part of the groove are formed. The first wire-like transmission member is housed in the groove.

To provide a coaxial flat cable that can achieve stable high-frequency transmission characteristics as a structure by which stress is not applied to a specific coaxial cable, even due to handling of the coaxial flat cable or the like. The above-described problem is solved by a coaxial flat cable (20) comprising a plurality of coaxial cables (10) disposed side by side in a width direction (X), and a resin tape (11) integrating at least terminal parts (21) of these coaxial cables (10) from one surface or both surfaces, each of the plurality of coaxial cables (10) being connected by soldering to a substrate (30) or a connector. The resin tape (11) positioned at the terminal parts (21) is configured to be provided with a fixed part (21a), to be fixed to the substrate or the connector, at both end portions in the width direction (X).

The present disclosure relates to a flat electric wire and a method for manufacturing a flat electric wire. The flat electric wire includes a plurality of conductors arranged in parallel in a width direction and having substantially a same cross-sectional area with each other, resin films provided on one side and the other side of the plurality of conductors in a thickness direction orthogonal to the width direction, and an insulator covering the plurality of conductors together with the resin films. Each of the resin films have a Young's modulus of 2 GPa or more and a film thickness of 200 μm or more.

In a base member arrangement section, a plurality of wire-like transmission members are divided into at least a first wire-like transmission member bundle and a second wire-like transmission member bundle, and the cover member is fixed to the base member at positions on both sides of the first wire-like transmission member bundle and the second wire-like transmission member bundle and a position between the positions on the both sides to cover the first wire-like transmission member bundle and the second wire-like transmission member bundle. In a non-base member arrangement section, the plurality of wire-like transmission members include a large bundle part where the first wire-like transmission member bundle and the second wire-like transmission member bundle are bundled together.