A display device and a manufacturing method thereof are provided. The display device includes a display panel and a flexible circuit board electrically connected with the display panel. The flexible circuit board includes a first circuit board, a second circuit board and a conductive portion; the first circuit board includes a first substrate, and a main contact pad, a first wire and a second wire provided on the first substrate; the second circuit board includes a second substrate, a relay contact pad and a third wire provided on the second substrate; and the conductive portion is configured for electrically connecting the main contact pad and the relay contact pad.

An electrically adjustable table system includes a table, at least one electric drive for adjusting the table, a voltage supply, a control and a bus system. The at least one drive, the voltage supply and the control are connected to the bus system. The bus system comprises multiple multiwire cable sections, which are electrically connected to one another via insulation displacement connectors.

A cable connector relates to a field of cable connecting technology. The cable connector includes a main body assembly including an insulating main body and conductive main bodies, a first clamping assembly, and a second clamping assembly. The conductive main bodies are disposed on the insulating main body. Two ends of each of the conductive main bodies extend outwards from bottom portions of the first accommodating groove and the second accommodating groove. The two ends of each of the conductive main bodies are sharp structures. The first clamping assembly includes a first clamping piece movably disposed up and down in the first accommodating groove and a first operating piece disposed on the insulating main body. The second clamping assembly includes a second clamping piece movably disposed up and down in the second accommodating groove and a second operating piece disposed on the insulating main body.

An electrical connector includes wiring with multiple wires. Each wire has a conductor covered in insulation. Each wire has a stripped portion that exposes the conductors. The stripped portions are stacked on top of one another. A housing has first and second housing portions that provide a cavity. The first housing portion receives the stripped portions. The second housing portion includes a spring that has a closed portion that extends into the cavity and is configured to urge the stripped portions into engagement with one another when the first and second housing portions are secured to another in an assembled connector condition.

An electrical connector includes wiring with multiple wires. Each wire has a conductor covered in insulation. Each wire has a stripped portion that exposes the conductors. The stripped portions are stacked on top of one another. A housing has first and second housing portions that provide a cavity. The first housing portion receives the stripped portions. The second housing portion includes a spring that has a closed portion that extends into the cavity and is configured to urge the stripped portions into engagement with one another when the first and second housing portions are secured to another in an assembled connector condition.

An apparatus and system for coupling power. In one embodiment, the apparatus comprises a trunk cable comprising a first conductor, a second conductor, and a third conductor; a first connector, wherein a first terminal of the first connector is conductively coupled to the first conductor; a second connector, wherein a first terminal of the second connector is conductively coupled to the second conductor; and a third connector, wherein a first terminal of the third connector is conductively coupled to the third conductor, and wherein the first, the second, and the third connectors are each adapted to couple to a different DC-AC power converter and an output of the trunk cable comprises three-phase AC power.

A mounting cable includes: a coaxial cable including: a core wire made of a conductive material; an internal insulator covering an outer periphery of the core wire; a shield covering an outer periphery of the internal insulator; and a jacket covering an outer periphery of the shield with an insulator, the coaxial cable having one end portion on which the core wire, the internal insulator and the shield are exposed; a cable fixing unit that fixes one end portion of the exposed core wire and has a connection surface on which an end face of the core wire is exposed; and a conductor having one end electrically and mechanically connected to the exposed shield and having the other end fixed to the cable fixing unit. An end portion of the conductor is exposed on the connection surface of the cable fixing unit.

A mounting cable includes: a coaxial cable including: a core wire made of a conductive material; an internal insulator covering an outer periphery of the core wire; a shield covering an outer periphery of the internal insulator; and a jacket covering an outer periphery of the shield with an insulator, the coaxial cable having one end portion on which the core wire, the internal insulator and the shield are exposed; a cable fixing unit that fixes one end portion of the exposed core wire and has a connection surface on which an end face of the core wire is exposed; and a conductor having one end electrically and mechanically connected to the exposed shield and having the other end fixed to the cable fixing unit. An end portion of the conductor is exposed on the connection surface of the cable fixing unit.

A cable connector that can, when an external force in a curling-up direction acts on a cable inserted in an insulator in a state where an actuator is in a closed position, prevent the cable from disconnecting from the insulator in the curling-up direction without deformation or breakage of the connector. A cable connector includes: an insulator (20) into which a sheet-like cable (70) is removably insertable; a contact (30) supported by the insulator; a rotatable actuator (40); and a fixed metal fitting (55) fixed to the insulator. The fixed metal fitting includes a cable press piece (61) extending from a part of the fixed metal fitting and facing the cable. The cable press piece is plate-like. The insulator includes a facing portion (28a) facing a tip part of the cable press piece from a side opposite to the cable at least when the actuator is in the closed position.

A cable connector that can, when an external force in a curling-up direction acts on a cable inserted in an insulator in a state where an actuator is in a closed position, prevent the cable from disconnecting from the insulator in the curling-up direction without deformation or breakage of the connector. A cable connector includes: an insulator (20) into which a sheet-like cable (70) is removably insertable; a contact (30) supported by the insulator; a rotatable actuator (40); and a fixed metal fitting (55) fixed to the insulator. The fixed metal fitting includes a cable press piece (61) extending from a part of the fixed metal fitting and facing the cable. The cable press piece is plate-like. The insulator includes a facing portion (28a) facing a tip part of the cable press piece from a side opposite to the cable at least when the actuator is in the closed position.