An electrical connector includes a plug that mates with a receptacle. In a medical application, the plug is connected to electrical leads that pass through a patient's skin to an implanted medical device in the patient's body, while the receptacle is connected to external medical equipment. The plug is small in diameter so the size of the opening in the patient's skin can be minimized. All electrical contacts in the plug are on internal portions. The receptacle includes spring-loaded contacts that contact the internal electrical contacts on the plug when the plug and receptacle are properly mated. When the plug is plugged into the receptacle, spring-loaded retention arms in the receptacle lock into place on the plug, retaining the plug in the receptacle.

The present disclosure provides an electrical connector, which comprises an insulating base portion, a mating portion, a latching portion and a limiting block. The insulating base portion has a front end, a rear end and a top surface; the mating portion extends forwardly from the front end of the insulating base portion; the latching portion is integrally formed to the top surface of the insulating base portion, the latching portion comprises a latching arm and a latching block, a rear end of the latching arm is connected to a rear end of the top surface of the insulating base portion, and the latching arm extends forwardly with the rear end of the latching arm as a fulcrum to form a cantilever structure; the latching block is formed to a front end of the latching arm and protrudes upwardly; the limiting block is provided on the top surface of the insulating base portion and positioned below the latching arm, the limiting block has a top face; a first gap is provided between the top surface of the insulating base portion and a bottom surface of the latching arm, a second gap is provided between the top face of the limiting block and the bottom surface of the latching arm, the second gap is less than the first gap, the limiting block is used to limit a distance that the latching arm is displaced downwardly.

A card connector includes: an insulative body; plural contacts secured to the insulative body; and an operating mechanism including a latch moveable relative to the insulative body and an actuator coupled to the latch, wherein: the actuator includes a pair of terminals, a slider coupled to one of the pair of terminals, and a shape memory alloy wire coupled between the other terminal and the slider; and the slider is operable by the shape memory alloy wire to move the latch from a card-locking position to a card-unlocking position.

Various embodiments disclosed herein are directed to a Network system including: a connector comprising a housing comprising a groove running widthwise on a surface of the housing; and a push-pull tab comprising a complementary groove, wherein the push-pull tab is detachably connected to the housing; and a receiver device comprising one or more ports for receiving the connector, the one or more ports having an interchangeable anchor device including a first portion and a second portion; wherein the groove is configured to receive the first portion of the interchangeable anchor device when the connector is inserted into the receiving element, and wherein the complimentary groove is configured to receive the second portion of the interchangeable anchor device when the connector is inserted into the receiving element, the push-pull tab being configured to disengage the second portion of the interchangeable anchor device from the complementary groove when the push-pull tab is moved in a direction away from the connector, thereby disengaging the first portion of the interchangeable anchor device from the grove of the connector. Other aspects are described and claimed.

An electrical connector housing has a plurality of socket cavities configured to receive single terminal inserts or bus inserts introduced from a rearward section. At least one row of socket cavities is formed as cylindrical cavities extending in the housing in parallel manner along an insertion direction running from the rearward to the forward section. Adjacent cavities in the row are separated by a partition wall. First locking means are provided in the socket cavities for locking in place a single terminal insert arranged in a given cavity. Second locking means are provided for locking in place a bus insert inserted in a corresponding number of socket cavities. The partition walls comprise, in the rearward section, slots extending in the insertion direction to accommodate the bus plate of the bus insert.

A connector structure includes a hood formed in a housing and having a bottomed tubular shape, a mating hood formed in a mating housing and fitted inside the hood, a plate spring member made of metal and accommodated in a bottom of the hood, a playing regulating member, a mating hood tip end inclined surface formed at a tip end of the mating hood in a fitting direction and inclined to a tube inner side or a tube outer side, and a playing regulating protrusion. The playing regulating member is provided in an opposite side against the bottom with the plate spring member interposed therebetween and is urged by the plate spring member in a direction opposite to a fitting direction against the mating hood.

A first connector, a second connector and an electrical connector assembly having the first connector and the second connector are provided. The first connector includes an insulating housing and a locking plate embedded in the insulating housing, and a plurality of first power terminals, a plurality of first signal terminals and a plurality of first braking terminals mounted in the insulating housing; the locking plate is provided with a locking mechanism protruding upwardly. The second connector includes a terminal block, a cover body covering the terminal block, a locking slidable cover slidably mounted on the cover body and a plurality of second power terminals, a plurality of second signal terminals and a plurality of second braking terminals mounted in the terminal block. The locking slidable cover is capable of sliding forwardly and rearwardly relative to the cover body, and is capable of being locked together with the locking mechanism. It is adapted to a servo motor, saves space and is easy to assemble.

Embodiments of a framing assembly including modular connectors for interconnecting components of the framing assembly are disclosed.

A connector structure includes a bottomed tubular hood formed in a housing, a mating hood formed in a mating housing and fitted inside the hood, a plate spring member made of metal accommodated in a tube bottom of the hood, a backlash regulating member provided on an opposite side of the tube bottom across the plate spring member and urged in a direction opposite to a fitting direction of the mating hood by the plate spring member, a mating hood tip end surface formed at a tip end of the mating hood in the fitting direction, and a regulating member abutting surface provided on the backlash regulating member and pressed by the mating hood tip end surface in a fitted state that the housing and the mating housing are fitted.

The invention relates to a modular field device, which is simply and safely assemblable. For this, the field device comprises: a housing having an electrical plug contact arranged in a housing interior, a mechanical securement, which is embodied to secure a first electronic component in the housing interior, a second electronic component, which is arrangeable in the housing interior and which is electrically contactable with the plug contact, and an elastic connection, which is embodied to connect the first electronic component elastically with the second electronic component. A division of tasks between two electronic components enables a modular design of the field device with universally applicable electronic components. In addition, the elastic connection provides a simple, mechanical securement of the first electronic component in the housing with simultaneous, safe, electrical connection of the second electronic component with the plug contact.