A plug connector having a housing that includes at least one receptacle formed on the housing for securing a contact which is designed to contact a contact of a further plug connector that includes at least one shield plate. The shield plate has at least one freely protruding soldering portion which passes through a housing opening, a free end portion of the soldering portion being bent away from the receptacle or being bent in the direction of the receptacle.

A radio-frequency connector assembly includes a radio-frequency line, connector male terminals, connector female terminals, and a circuit board, wherein each connector male terminal includes a male terminal substrate; each connector female terminal includes a female terminal substrate; the connector male terminal further includes a shielding case which shields the male terminal substrate and is conductive with the radio-frequency line in a grounding manner; and the connector female terminal further includes a shielding frame which is internally provided with the female terminal substrate and is circumferentially seamless entirely, and the bottom end of the shielding frame makes contact with the circuit board to form an annular contact region, so that signals of the connector female terminals will not leak sideways; and the shielding cases can prevent signal leakage and signal interference from the top of the shielding frame, so that matched signal terminals are kept in a fully-shielded operating environment.

Provided is a connector with which it is possible to suppress increases in manufacturing cost and to adjust transmission characteristics. The connector comprises: a housing (10) having an accommodation section (11) and attachment parts (12, 13, 14, 15); a terminal fitting (40) accommodated in the accommodation section (11); and shield members (50, 51) attached to the attachment parts (12, 13, 14, 15), the shield members (50, 51) shielding electromagnetic waves. The attachment parts (12, 13, 14, 15) are provided in a plurality of positions at differing distances from the accommodation section (11). For example, the attachment parts (12, 13, 14, 15) form a groove shape, one end thereof opening on one surface of the housing (10).

An electronic device according to an embodiment of the present invention includes a processor and a socket connector, wherein the socket connector includes: a housing including a first opening, a second opening, and an inner space between the first opening and the second opening; and a connection unit coupled to the first opening, wherein the connection unit has a top surface on which one or more first terminals electrically connected to the processor are disposed, and a bottom surface on which one or more second terminals electrically connected to the processor are disposed, and includes a first plate formed of a non-conductive member in at least a portion of an area of the inner space, and a second plate disposed between at least a portion of the top surface and at least a portion of the bottom surface, wherein the second plate has a portion protruding from the one or more first terminals or the one or more second terminals in the direction of the second opening into which a header connector can be inserted, and at least a portion of the protruding portion can be bent in the direction of at least one of the top surface or the bottom surface. Various other embodiments are possible.

An electrical connector includes multiple terminals fixed to an insulating body. Each terminal has a contact portion electrically connected with a mating connector, and a conducting portion located behind the contact portion. The conducting portion extends out of the insulating body and is electrically connected with a circuit board. A grounding shell wraps outside the insulating body. A shielding shell rotates relative to the insulating body between a closed position and an open position. A first end of the shielding shell is electrically connected with the grounding shell. When the shielding shell is at the closed position, a second end of the shielding shell is electrically connected with at least one grounding medium electrically connected with the circuit board. When the shielding shell is at the open position, an observation window is formed between the shielding shell and the grounding medium to expose the conducting portions of the terminals.

Disclosed herein is a cable device including a cable configured to transmit power and a connector connected to the cable, the cable device including a connector with improved electromagnetic interference (EMI) shielding performance. The cable device includes a cable, and a connector connected to the cable. The connector includes a printed circuit board including a ground electrode, and a shield case provided to accommodate the printed circuit board therein, the shield case including a contact portion provided in direct contact with the ground electrode.

A connector assembly for a mobile device includes a bottom plate adapted to be operably coupled with a mobile device and a towel bar being operably coupled with the bottom plate. The towel bar has a quadrilateral cross section that defines at least a first engaging surface and a second engaging surface. The towel bar is adapted to engage an accessory device at at least one of the first engaging surface or the second engaging surface to couple the accessory device with the mobile device.

A radio-frequency connector assembly includes a radio-frequency line, connector male terminals, connector female terminals, and a circuit board, wherein each connector male terminal includes a male terminal substrate; each connector female terminal includes a female terminal substrate; the connector male terminal further includes a shielding case which shields the male terminal substrate and is conductive with the radio-frequency line in a grounding manner; and the connector female terminal further includes a shielding frame which is internally provided with the female terminal substrate and is circumferentially seamless entirely, and the bottom end of the shielding frame makes contact with the circuit board to form an annular contact region, so that signals of the connector female terminals will not leak sideways; and the shielding cases can prevent signal leakage and signal interference from the top of the shielding frame, so that matched signal terminals are kept in a fully-shielded operating environment.

A dual-row cable structure is applied to a first circuit board and a second circuit board. A board-to-board connector is on the first circuit board, and the first circuit board includes a first group of contacts and a second group of contacts. An electrical connector is on the second circuit board. The second circuit board includes a third group of contacts and a fourth group of contacts. The dual-row cable structure includes a wire assembly including high-speed signal wires, low-speed signal wires, one or more power wires, and one or more ground wires. The high-speed signal wires are connected to the first group of contacts. The low-speed signal wires, the power wire, and the ground wire are respectively connected to the second group of contacts. The third group of contacts and the fourth group of contacts are respectively connected to the other end of the wire assembly.

An embodiment connector assembly includes a housing including an inner space formed therein, wherein ends of a main-line terminal and a sub-line terminal are inserted into a first side of the inner space, a main-line port inserted into and fixed to the inner space of the housing and electrically connected to the end of the main-line terminal inserted into the inner space, a sub-line port inserted into and fixed to the inner space of the housing and electrically connected to the end of the sub-line terminal inserted into the inner space, and a noise filter disposed between the main-line port and the sub-line port and electrically connected to each of the main-line port and the sub-line port, wherein the noise filter is configured to reduce a noise in a signal transmitted between the main-line port and the sub-line port.