The application discloses a flat cable assembly, which includes a plurality of cables arranged in a row and an insulating film. The cables have a center line and include connecting portions, a signal wire and a grounding wire respectively. The connection portions are located on one side of the center line. The insulating film is disposed on the connecting portion of any one of the cables and located on one side of the central line. The cables are exposed from the insulating film. The insulating film is disposed on a single side of the cables, whereby the cables are exposed from the insulating film. The flat cable assembly is easily manufactured and the amount of the cables therein can be varied according to real practice condition. The grounding wire is integrated to each cable, whereby the flat cable assembly has an excellent anti-EMI effect and performance in signal transmission.

A method of forming a flexible circuit, including providing a flexible flat cable with a first surface and a second surface. The first surface of the flexible flat cable is diametrically opposed to the second surface. A dispensing apparatus including a nozzle is further provided, and an extruded material is dispensed through the nozzle onto the first surface of the flexible flat cable. The extruded material is shaped into a pattern and cured onto the first surface of the flexible flat cable.

A conductive structure having a self-assembled protective layer and a self-assembled coating composition are provided. The self-assembled coating composition includes a resin, a solvent, and a self-assembled additive. The self-assembled additive includes alkylamine, fluoroalkylamine, fluoroaniline, or a derivative thereof. The self-assembled additive has a concentration in a range of from about 0.01 mg/L to about 100 mg/L in the self-assembled coating composition. The conductive structure includes a substrate, a conductive layer, and the self-assembled protective layer. The conductive layer is disposed over the substrate. The self-assembled protective layer covers the conductive layer and has a resin, a solvent, and the above-mentioned self-assembled additive.

A wiring member includes a plurality of wire-like transmission member groups, a plurality of connectors, and a base member. Each of the plurality of wire-like transmission member groups includes a plurality of wire-like transmission members. End portions of the wire-like transmission members are connected to the plurality of connectors. The base member planarly positions and holds at least intermediate parts of the plurality of wire-like transmission member groups.

Disclosed is a flat cable with an improved function of preventing a short phenomenon that may occur when the flat cable is incorrectly inserted into a connector. The flat cable according to an embodiment of the present disclosure is a flat cable extending straight in a direction and having a front end that is inserted and connected to an external connector, and includes a plurality of conductors extending straight along a lengthwise direction of the flat cable, spaced apart a predetermined distance in a widthwise direction of the flat cable, and a cable body made of an insulating material, and extending straight along the lengthwise direction of the flat cable, wherein the conductors are mounted on at least one surface.

A wiring member with a fixing member includes a flat wiring member, and a fixing member. The flat wiring member includes a plurality of wire-like transmission members and a base material. The plurality of wire-like transmission members are fixed to the base material in an arrayed state. The fixing member includes a plate-like part and a fixing part. The plate-like part is formed into a plate-like shape elongated in one direction, and the plate-like part is attached to the base material while a main surface of the plate-like part comes in surface contact with the base material. The fixing part is a part being provided to project on the plate-like part and being configured to fix the flat wiring member to a fixing target.

A wiring member includes a plurality of wire-like transmission member groups, a plurality of connectors, and a base member. Each of the plurality of wire-like transmission member groups includes a plurality of wire-like transmission members. End portions of the wire-like transmission members are connected to the plurality of connectors. The base member planarly positions and holds at least intermediate parts of the plurality of wire-like transmission member groups.

Elongated conductors are provided. Aspects of the elongated conductors include: an elongated structure having a proximal region and a distal region, where the elongated conductor includes two or more insulated conducting members that are in fixed relative position along at least a portion of the elongated structure and extend from the proximal region to the distal region. A pattern of insulation openings among the insulated conducting members is present at one or both of the proximal and distal regions. Aspects of the invention further include methods of making the elongated conductors, as well as devices that include the elongated conductors.

A wiring member includes a sheet material and a wire-like transmission member fixed on the sheet material. For example, the sheet material is considered to be made by combining a plurality of base materials to be processed to extend to regions different from each other.

The present disclosure provides a conductor arrangement for transmitting differential communication signals, the conductor arrangement includes a conductor carrier, a plurality of pairs of first conductors, two of the first conductors being electrically coupled together at their ends, and a plurality of pairs of second conductors, two of the second conductors being electrically coupled together at their ends, and wherein, as conductor bundles, in each case one of the first conductors of a pair and one of the second conductors of a pair are jointly arranged on a first side of the conductor carrier and the further first conductor of the respective pair and the further second conductor of the respective pair are arranged on a second side of the conductor carrier.