A terminal block includes an insulative seat, a flexible arm latch and a slider. The insulative seat has a slot and a sliding trough. A longitudinal direction of the sliding trough is parallel to a depth direction of the slot. The flexible arm latch is disposed on the insulative seat. A longitudinal direction of the flexible arm latch is parallel to the depth direction of the slot. The flexible arm latch has a first interfering portion and a hook. The slider is disposed in the sliding trough and longitudinally movable along the sliding trough. The slider has a second interfering portion. Either the first interfering portion or the second interfering portion is a slope. The first and second interfering portions abut against each other to push the slope to deflect the flexible arm latch to make the hook retract when the slider is traveling toward the slot.

Example implementations relate to an electronic plug having a locking assembly for securing within an electronic port having a receptacle. The locking assembly includes a cantilever beam, a deformable arm, and an axle rotatably coupled to a connector of the electronic plug. The cantilever beam extends from the axle, where a free end of the cantilever beam includes a locking tab aligned to a recess of the connector. The deformable arm extends from the axle, where an open end of the deformable arm is rested on the connector. In a biased state of the deformable arm, the locking tab is positioned below the recess to allow movement of the connector in and out of the receptacle. In a relaxed state of the deformable arm, the locking tab protrudes above the recess to allow movement of the connector into the receptacle and prevent movement of the connector out of the receptacle.

Provided is a board coupling structure in which a power supply circuit board is formed as a separate board, more specifically, to a board coupling structure in which a signal processing circuit board for processing signals such as image signals, voice signals, and the like and a power supply circuit board are formed as different types of boards and the different types of boards are laterally coupled to each other. The board coupling structure includes a first circuit board, a second circuit board formed of a smaller number of layers than the number of layers of the first circuit board, and a fastening unit configured to laterally fasten a contact edge of the first circuit board to a contact edge of the second circuit board which are facing each other.

A connector comprises a housing and a plurality of contacts retained in the housing. Each of the contacts extends in a longitudinal direction and has a retained portion, a contacting portion disposed in front of the retained portion in the longitudinal direction, and a connecting portion disposed behind the retained portion in the longitudinal direction. Each of the contacting portion and the connecting portion are shifted with respect to the retained portion in a vertical direction perpendicular to the longitudinal direction. The housing is in contact with the retained portion of each of the contacts from both above and below in the vertical direction and from both right and left in a lateral direction perpendicular to the vertical direction and the longitudinal direction.

An electrical connector assembly includes a receptacle connector disposed in a wearable machine and equipped with one row contacts and a set of magnets, and a cable connector equipped with two rows of contacts and another set of magnets so as to be mated with the receptacle connector in a flippable manner wherein the interface between the receptacle connector and the cable connector is of a stadium configuration, and the set of magnets are located at two opposite halves of the long sides of the stadium configuration in the diagonal direction.

A power connector includes an insulated housing and at least one electrical terminal assembly. The insulated housing has at least one terminal receiving hole. The at least one electrical terminal assembly is inserted in the at least one terminal receiving hole. Each electrical terminal assembly has an inner terminal, and an outer terminal. Each inner terminal has a connecting section, and an elastic section connected to the connecting section. Each outer terminal has a conductive portion, a leg portion arranged at one end of the conductive portion, and a curve portion arranged between the conductive portion and the leg portion. The leg portion is exposed outside of the insulated housing. The connecting section of the inner terminal is fixedly connected to the conductive portion of the outer terminal. The present disclosure further has an electrical terminal assembly.

An electrical connector includes wafer assemblies coupled to a housing. Each wafer assembly includes a leadframe, a wafer body holding the leadframe, and a ground frame coupled to the wafer body to provide electrical shielding for the leadframe. Each leadframe has signal contacts with mating ends extending from the wafer body for mating with mating signal contacts of a mating electrical connector. The mating ends are twisted 45° to define twisted mating interfaces. Each ground frame has ground shields extending from a ground plate along the mating ends of the signal contacts. The ground shields are twisted 45° relative to the ground plate to define twisted shield zones along the mating ends of the signal contacts.

The present invention provides a plug connector engaged with a socket. The plug connector includes an insulating body and a metal limiter. The insulating body has a mating port and a space for accommodating a circuit board, and the mating port is connected with the space. The metal limiter includes a metal bottom plate and a pair of metal side structures. The metal bottom plate is arranged under the opening of the mating port. The pair of metal side structures are respectively connected to the two sides of the metal bottom plate and arranged on the left and right sides of the opening to form a limiting space. When the plug connector is matched with the socket, the metal shell of the socket is sheathed with the front end of the insulating body, and the metal shell is located in the limiting space to restrict the plug connector from shaking.

Electrical connectors, electrical modules, and systems are provided. In one aspect, an electrical connector includes a housing defining a side surface, an electrical conductor supported by the housing and including an engagement portion proximate the side surface of the housing. The engagement portion is adapted to engage another electrical conductor of another electrical connector. The connector also includes a magnet supported by the housing proximate the side surface of the housing, a projection extending from the side surface of the housing, and a receptacle defined in the side surface of the housing. In other aspects, an electrical module includes at least one of these electrical connectors. In further aspects, a system includes a plurality of these modules and the modules are selectively couplable together.

An electrical connector includes an insulating body, a number of first conductive terminals, a number of second conductive terminals, an adapter circuit board, and cables. The first conductive terminals include a number of first high-speed signal terminals and a number of first non-high-speed signal terminals. Each first high-speed signal terminal includes a first connecting portion. Each first non-high-speed signal terminal includes a first elastic mounting arm. The second conductive terminals include a number of second high-speed signal terminals and a number of second non-high-speed signal terminals. Each second high-speed signal terminal includes a second connecting portion. Each second non-high-speed signal terminal includes a second elastic mounting arm. The adapter circuit board is located between the first elastic mounting arms and the second elastic mounting arms. The cables include first cables electrically connected to the first connecting portions and second cables electrically connected to the second connecting portions.