The present disclosure disclosed a release with tab and a connector. The release with tab is disposed on a connector head. The release with tab comprises an elastic clip and a tab assembly. The elastic clip comprises a first chuck part, a second chuck part and an elastic part disposed on the connector head. The first chuck part is pivotally connected to the second chuck part. The elastic part is disposed between the first chuck part and the second chuck part. One end of the tab assembly is disposed on the elastic clip. The tab assembly moves in a direction away from the elastic clip to compress the elastic part and the tab assembly drives one end of the first chuck part to approach one end of the second chuck part. When the tab assembly is no longer subjected to external force, the tab assembly restores to the initial position.

An assembly comprising a cable terminator comprising a wire guide, a cube shaped securing cap comprising an open end for installation over the wire guide, and pairs of piercing contacts for piercing respective conductors of the cable. When assembled, an outer end of each of the piercing contacts is exposed on an outer surface of a respective securing cap sidewall. The assembly also comprises a coupler connector comprising one of a modular (for example RJ-45 compatible) socket or a modular (for example RJ-45 compatible) plug, a rearward surface comprising a cable terminator receiving socket, wherein pairs of contacts are exposed along at least one side wall of the socket, and further wherein each of a plurality of the tines in the modular socket or the terminal contacts of the plug is interconnected with a respective one of the contacts.

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. All electrical contacts in the plug are on internal portions. The receptacle includes annular contacts that contact the internal electrical contacts on the plug when the plug and receptacle are properly mated. The receptacle includes a plurality of annular electrical contacts that have a first diameter and are separated by a plurality of annular insulators having a second diameter smaller than the first diameter.

The invention provides a shield shell that allows easy insertion of a circuit board or other insulator into the shield shell. A shield shell 300 includes a shell body 310 and first and second position restrictors 320a and 320b. The first position restrictor 320a is provided at an edge portion 315 of an insertion port 310 of the shell body 310 and is located inside the insertion port 315. The second position restrictor 320b is provided in the shell body 310 so as to oppose the first position restrictor 320b with a spacing in a Z-Z direction. A distance in the Z-Z direction from the first position restrictor 320a to the second position restrictor 320b is substantially equal to, or slightly larger than, a distance in the Z-Z direction from a first face 101 to a second face 102 of a circuit board 100. When the circuit board 100 is inserted into the shell body 310 through the insertion port 315, the first position restrictor 320a and the second position restrictor 320b are abuttable on the first face 101 and the second face 102, respectively, of the circuit board 100.

The invention provides a shield shell that allows easy insertion of a circuit board or other insulator into the shield shell. A shield shell 300 includes a shell body 310 and first and second position restrictors 320a and 320b. The first position restrictor 320a is provided at an edge portion 315 of an insertion port 310 of the shell body 310 and is located inside the insertion port 315. The second position restrictor 320b is provided in the shell body 310 so as to oppose the first position restrictor 320b with a spacing in a Z-Z direction. A distance in the Z-Z direction from the first position restrictor 320a to the second position restrictor 320b is substantially equal to, or slightly larger than, a distance in the Z-Z direction from a first face 101 to a second face 102 of a circuit board 100. When the circuit board 100 is inserted into the shell body 310 through the insertion port 315, the first position restrictor 320a and the second position restrictor 320b are abuttable on the first face 101 and the second face 102, respectively, of the circuit board 100.

A plug element (10) includes a housing (10a, 10b) and two contact spring wires (17a, 18a) arranged and fixed in the housing (10a, 10b). The housing (10a, 10b) includes laterally arranged openings (25, 26), and the contact spring wires (17a, 18a) form spring pressure contacts (17a, 18a) in the area of the lateral openings (25, 26).

An interconnect module, such as a transceiver is configured to mate with a host module that includes first and second electrical connectors. The interconnect module includes first and second pluralities of lands that are spaced from each other. The interconnect module can be mated with the host module such that the first lands mate with the first electrical connector, and the second lands mate with the second electrical connector. As the interconnect module is mated with the host module, the first lands can pass over mating regions of the electrical contacts of the second electrical connector without wiping against the mating regions. The interconnect module can be used in both front panel mount and mid board mount applications.

A surgical device and method of processing includes a cable and a first adapter. The adapter includes a body, an electrical contact connected to the cable, and an engagement assembly. The engagement assembly includes a latch coupling or a communication coupling. The latch coupling is movable between a locked and an unlocked position and includes a catch member. The communication coupling is configured to be resiliently biased into engagement between the electrical contact and an instrument or generator.

A connector is disclosed and includes a main body, a sleeving component, a conductive terminal and a signal terminal. The main body has an opening end and a sleeved end opposite to each other. An electronic device end is matched with the connector through the opening end. The sleeving component is slidably disposed on the sleeved end, and includes a conductive contact portion and a signal contact portion arranged in parallel. The conductive terminal is fixed to the main body for connecting with the conductive contact portion. The signal terminal is fixed to the main body for connecting with the signal contact portion. When the connector is detached from the electronic device end, the sleeving component is displaced relative to the main body, the signal contact portion is separated from the signal terminal, and the conductive terminal end and the conductive contact portion are maintained in an electrical connection.

A connector assembly is provided. The connector assembly includes a receptacle module and a pluggable module. The receptacle module includes a cage, a receptacle connector, a biasing spring, and a locking member. The pluggable module is moved from a front end to a back end, so as to be aligned and mated with the receptacle module. The biasing spring is configured to apply a spring load toward the front end of the cage. Accordingly, the mating between the receptacle module and the pluggable module may be accomplished through alignment in the following manner: the pluggable module pushes the receptacle connector toward the back end to compress the biasing spring, so that the receptacle connector is moved toward the back end to the locking member to be mated with the pluggable module.