A connector assembly is configured to connect a first circuit board and a second circuit board. The connector assembly includes a board-to-board connector, a buckle pressing plate and a pressing and covering piece. The buckle pressing plate and the board-to-board connector which is spaced from the buckle pressing plate are arranged on the second circuit board, and the board-to-board connector is connected with the first circuit board to enable the first circuit board to be electrically connected with the second circuit board. The pressing and covering piece includes a covering portion and a buckling portion extending from a first end of the covering portion. The buckling portion is connected to the buckle pressing plate in a buckling manner. The covering portion presses and covers the board-to-board connector to fix the board-to-board connector on the second circuit board. A power supply assembly and an electronic device are also provided.

A shielded flat cable includes multiple flat conductors arranged in parallel, a lower insulating layer provided on lower surfaces of the multiple conductors, a lower shield layer provided on a lower surface of the lower insulating layer, a lower protective layer provided on a lower surface of the lower shield layer, a lower contact portion that is exposed from the lower protective layer and provided to contact a second contact member of the connector, and that is electrically coupled to the lower shield layer, a terminal in which the multiple conductors are exposed at an end, and a reinforcing plate provided on the lower surface of the lower insulating layer and the lower surfaces of the multiple conductors at the terminal. The multiple conductors extend along the lower insulating layer and the reinforcing plate, and the lower contact portion and the terminal overlap in a side view.

Electrical term finals and electrical connector assemblies for electrically conductive structures are described. An example electrical terminal has a terminal head and an electrical contact. The electrical contact extends from the terminal head and has a lengthwise axis and a spring finger contact. The spring finger contact is movable relative to the terminal head and has a cantilever portion and a contact portion. The cantilever portion extends away from the terminal head and away from the lengthwise axis of the electrical contact. The contact portion extends from the cantilever portion.

An easy-lock connector with unlock structure includes a rubber core, a housing and plural terminals. The rubber core includes a first body, acting parts and terminal grooves in which the terminals are arranged. Each of the action parts includes a first stop body and a third stop body. An opening is formed between the first stop body and the third stop body. The housing includes a second body and pressing parts. When the action parts are pressed by an external force, the action parts will be deformed. Then, a flexible printed circuit board will be unlocked on the first body, and the action parts are stopped by the first stop body and the third stop body to stop continuing to deform. When the action parts are not pressed by the external force, the circuit board is locked on the first body.

A connector (1) according to the present disclosure includes a holder (10) holding a cable (30) including a conductor (31) and an insulating coat (32) covering the conductor (31), and a socket (20) with which the holder (10) is to be engaged and including a contact (22). The holder (10) includes a base portion (11) holding the cable (30) by being integrally molded with the cable (30) and in which a portion of each of the insulating coat (32) and the conductor (31) of the cable (30) is embedded, and an extension portion (12) covering at least a portion of the conductor (31) and extending from the base portion (11) toward a side of connect with the socket (20). The holder (10) exposes a part of the conductor (31) of the cable (30) in contact with the contact (22) in an engaged state in which the holder (10) and the socket (20) are engaged with each other.

An interconnect system includes various anti-backout latches that are movable between an engaged position and a disengaged position. When in the engaged position, the anti-backout latches can be configured to prevent an interconnect module, such as an optical transceiver, from becoming unmated from a host module. When in the disengaged position, the anti-backout latches permit the interconnect module to become unmated from a host module. Securement members are also disclosed that secure a heat sink to a module housing of the interconnect module.

A connector (1) according to the present disclosure includes a holder (10) holding a cable (30) including a conductor (31) and an insulating coat (32) covering the conductor (31), and a socket (20) with which the holder (10) is to be engaged and including a contact (22). The holder (10) includes a base portion (11) holding the cable (30) by being integrally molded with the cable (30) and in which a portion of each of the insulating coat (32) and the conductor (31) of the cable (30) is embedded, and an extension portion (12) covering at least a portion of the conductor (31) and extending from the base portion (11) toward a side of connect with the socket (20). The holder (10) exposes a part of the conductor (31) of the cable (30) in contact with the contact (22) in an engaged state in which the holder (10) and the socket (20) are engaged with each other.

A flat conductor electric connector mounted on a circuit board and electrically connected to a front end side portion of a band-shaped flat conductor extending in a front-back direction, comprising: multiple terminals in such a shape that metal plate members are bent in a plate thickness direction thereof; and a housing holding, by insert molding, the multiple terminals arrayed in a terminal array direction which is a band width direction, wherein each of the multiple terminals has, at least at one end portion in the front-back direction, a holding target portion held on the housing and an extending portion extending from the housing and formed with a mounting portion to be mounted on the circuit board by soldering, and the holding target portions adjacent to each other and the extending portions adjacent to each other are arrayed and positioned in the terminal array direction.

A wire-clamping connector assembly includes a wire-clamping connector and a mating connector that are mated with each other. The wire-clamping connector includes a casing and a conductive cable. The casing includes a first wire-fixing portion, a second wire-fixing portion, and a third wire-fixing portion that is located therebetween. A first gap is formed between the first wire-fixing portion and the third wire-fixing portion, and a second gap is formed between the second wire-fixing portion and the third wire-fixing portion. The conductive cable includes a conductive cable body and insulating bodies that cover the conductive cable body. The conductive cable passes through the first gap and the second gap, such that a third extension section is surroundingly arranged below the third wire-fixing portion. An extension direction of the conductive cable is perpendicular to a mating direction of the mating connector and the wire-clamping connector.

A card edge connector with a latch non-removably retained to a housing so as to improve the connector's reliability. The housing has a slot elongated in a longitudinal direction and is configured to hold conductive elements. Each conductive element has a contact portion exposed in the slot configured for mating with an electronic component, and a tail portion extending out of the housing configured for surface mounting to another electronic component. The housing has an end portion at an end of the slot in the longitudinal direction. The latch is installed to and extends around three sides of the end portion of the housing. The latch has a first retention feature, and the end portion has a second retention feature. When the first retention feature fully engages the second retention feature, the latch cannot be removed from the housing in a non-destructive manner. The latch and the housing may be made of different materials for respective functions.