Flexible electrical connectors are provided to electrically connect electronic devices. The flexible electrical connector includes a removable adhesive tape strip having an adhesive surface thereof and an electrically conductive trace disposed on the adhesive tape strip. The flexible electrical connector engages an electronic device to form an electrical contact where the adhesive tape strip has an adhesive surface removably adhesively bonded to the substrate of the electronic device to at least partially cover the electrical contact.

According to one embodiment, an electronic device includes: a housing; a first electronic component inside the housing; a second electronic component arranged inside the housing and spaced apart from the first electronic component; a female connector electrically connected to the second electronic component, the female connector comprising multiple conductive pins; a male connector electrically connected to the first electronic component and configured to contact at least some of the multiple conductive pins of the female connector, the male connector comprising a base film, a conductive layer formed on one surface of the base film, and an adhesive layer formed on the back surface of the base film, thereby forming a lamination structure; and multiple reinforcement members provided on at least one of one surface of the base film and the back surface thereof so as to form a peripheral portion of the lamination structure.

According to one embodiment, an electronic device includes: a housing; a first electronic component inside the housing; a second electronic component arranged inside the housing and spaced apart from the first electronic component; a female connector electrically connected to the second electronic component, the female connector comprising multiple conductive pins; a male connector electrically connected to the first electronic component and configured to contact at least some of the multiple conductive pins of the female connector, the male connector comprising a base film, a conductive layer formed on one surface of the base film, and an adhesive layer formed on the back surface of the base film, thereby forming a lamination structure; and multiple reinforcement members provided on at least one of one surface of the base film and the back surface thereof so as to form a peripheral portion of the lamination structure.

A cable assembly includes a plurality of wires and a plurality of electrical contacts. The electrical contacts include contact sections and wire connecting sections, and the wire connecting sections of the electrical contacts are respectively connected to the wires. Two adjacent electrical contacts for transmitting signals have a first edge distance and an expanded edge distance. The first edge distance is adjacent to the contact sections, and the expanded edge distance is between the first edge distance and the wire connecting sections. In addition, the first edge distance is smaller than the expanded edge distance to improve signal integrity.

A cable assembly includes a plurality of wires and a plurality of electrical contacts. The electrical contacts include contact sections and wire connecting sections, and the wire connecting sections of the electrical contacts are respectively connected to the wires. Two adjacent electrical contacts for transmitting signals have a first edge distance and an expanded edge distance. The first edge distance is adjacent to the contact sections, and the expanded edge distance is between the first edge distance and the wire connecting sections. In addition, the first edge distance is smaller than the expanded edge distance to improve signal integrity.

The invention concerns a method for connecting a cable (4) to a connector part, such as a plug or socket, with electrical contacts (21). The cable comprises at least one layer (41) comprising several wires (42) arranged next to each other, the connector part comprising an interface (10, 60) with tracks for electrically connecting the wires of the layer (41) to the electrical contacts (21), and, when the wires of the layer are connected to the interface (10, 60), the layer is arranged flat. The invention also relates to the products obtained by the method.

A display device includes a substrate including a display area and a pad area, a plurality of pad electrodes disposed in the pad area on the substrate, a circuit board disposed to overlap at least a portion of the pad area on the substrate, and an anisotropic conductive layer disposed in the pad area between the substrate and the circuit board. The circuit board includes a base substrate and a plurality of bump electrodes disposed on a lower surface of the base substrate. The anisotropic conductive layer includes an adhesive layer and a plurality of conductive particles arranged in the adhesive layer. Each of the conductive particles includes a core, a first conductive film disposed on the core in a way such that at least a portion of the core is exposed, and a second conductive film entirely covering the core and the first conductive film.

A display device includes a substrate including a display area and a pad area, a plurality of pad electrodes disposed in the pad area on the substrate, a circuit board disposed to overlap at least a portion of the pad area on the substrate, and an anisotropic conductive layer disposed in the pad area between the substrate and the circuit board. The circuit board includes a base substrate and a plurality of bump electrodes disposed on a lower surface of the base substrate. The anisotropic conductive layer includes an adhesive layer and a plurality of conductive particles arranged in the adhesive layer. Each of the conductive particles includes a core, a first conductive film disposed on the core in a way such that at least a portion of the core is exposed, and a second conductive film entirely covering the core and the first conductive film.

An electric wire connection structure is composed of insulated electric wires each including a core and an insulation coating covering the core. The cores of the insulated electric wires are connected to pads provided on a substrate. The insulated electric wires are arranged along a predetermined alignment direction and arranged parallel to each other. The insulation coating is removed at a part in a longitudinal direction of each of the insulated electric wires to expose the core. Exposed portions of the cores are connected to the pads, respectively. Some of the insulated electric wires are configured in such a manner that the core is exposed in an area where the insulation coatings of adjacent ones of the other insulated electric wires in the alignment direction are not removed.

A display device includes a substrate including a display area and a non-display area adjacent to the display area, lower pads disposed in the non-display area of the substrate and spaced apart from each other, upper pads disposed on the lower pads and spaced apart from each other, an anisotropic conductive film disposed between the lower pads and the upper pads, and a circuit film disposed on the upper pads, the circuit film including first lower holes disposed between the upper pads in a plan view, and first upper holes connected to the first lower holes and having radiuses larger than radiuses of the first lower holes. The first upper holes form first openings on an upper surface of the circuit film. A method of manufacturing the display device is provided.