An electrical connector includes: an insulative housing having an island and a receiving channel; plural contacts secured to the insulative housing and exposed to the receiving channel; and a pair of holding members secured to two opposite ends of the insulative housing and exposed to the receiving channel, each holding member having a first part and a second and third parts at two opposite ends of the first part, wherein the second part of each holding member has a bottom plate, a reinforcing tab extending upwardly from the bottom plate, and a resilient arm extending upwardly from the bottom plate and located proximal to associated third part than the reinforcing tab.

Examples described herein relate to connector assembly for a connecting device. The connector assembly may include an electrical connector connectible with a corresponding receiving structure on a receiving device separate from the connecting device. Further, the connector assembly may include a connector housing enclosing the electrical connector. The connector housing may include a mounting lever engaged with a body of the connecting device to secure the connector housing with the connecting device and allow the connector housing to move relative to the body of the connecting device. Further, the connector assembly may include a biasing member disposed within the connector housing to bias the electrical connector toward the receiving structure on the receiving device.

An outlet module including a module housing comprising a base surface and a sidewall extending therefrom to at least partially surround an interior region. Multiple outlet cores extend from the base surface and at least one latch lever is pivotably coupled to the sidewall and adjacent a corresponding one of the multiple outlet cores. The latch lever is moveable between a first position, wherein the at least one latch lever is capable of engaging a mating plug and a second position, wherein the at least one latch lever is disengaged from the plug.

A duplex optical connector plug includes: a first engagement latch being elastically deformable and including a first abutting projection configured to abut on a front end of a first top wall and a first engagement part formed on an axial rear side of the first abutting projection and configured to engage with an optical connector adaptor when the first optical connector assembly is inserted into the optical connector adaptor; and a second engagement latch being elastically deformable and including a second abutting projection configured to abut on a front end of a second top wall and a second engagement part formed on an axial rear side of the second abutting projection and configured to engage with the optical connector adaptor when the second optical connector assembly is inserted into the optical connector adaptor.

A duplex optical connector plug includes: a first engagement latch being elastically deformable and including a first abutting projection configured to abut on a front end of a first top wall and a first engagement part formed on an axial rear side of the first abutting projection and configured to engage with an optical connector adaptor when the first optical connector assembly is inserted into the optical connector adaptor; and a second engagement latch being elastically deformable and including a second abutting projection configured to abut on a front end of a second top wall and a second engagement part formed on an axial rear side of the second abutting projection and configured to engage with the optical connector adaptor when the second optical connector assembly is inserted into the optical connector adaptor.

The present disclosure provides a first connector, a second connector and an electrical connector assembly. The first connector includes a connector main body, an elastic latching member and a position assurance slider. A positioning post and two locking protrusions protrude from an upper surface of the housing of the connector main body; two locking protruding portions protrude from inner sides of the two locking protrusions respectively toward each other. The elastic portion of the elastic latching member is suspended above the upper surface of the housing. The position assurance slider is positioned between the housing and the elastic latching member and can slide in a front-rear direction; during sliding of the locking portion of the position assurance slider in the front-rear direction, the locking portion cooperates with the locking protruding portion so that the elastic latching member is in a locking state or a non-locking state; when the elastic latching member is in the locking state, the tongue of the position assurance slider is positioned below the elastic portion to block the elastic portion from moving downwardly, so that prevent unlatching of the latching hook. The present disclosure is simple in structure and can realize firm locking.

A connector that has a conductive shell that supports at least one signal contact therein. The shell comprises a front end for mating with a mating connector and a back end opposite the front end for connecting to a power or data transmission cable. A coupling member is configured to engage the conductive shell and engage a corresponding component associated with the mating connector to mechanically couple the connector and the mating connector together. A plurality of ground connections are provided at the front end of the conductive shell and the front section of the coupling member for grounding.

An electrical plug connector includes a metallic shell, a first insulated housing in the metallic shell, and a second insulated housing in the metallic shell. The first tail portions of the first terminals are divided into a first tail group and a second tail group. The second insulated housing and the first insulated housing are combined with each other. Each of the second terminals includes a second tail portion between the first tail group and the second tail group. The second tail portions and the first tail portions are aligned at a same horizontal height.

A cable connector includes an insulator, an electrical connection portion, a cable and a latch, wherein the electrical connection portion is disposed in the insulator, and one end of the cable is electrically connected to the electrical connection portion; a front end of the insulator is provided with a projecting portion extending toward a bottom end of the insulator, the latch is disposed on the projecting portion, and a latch projection is disposed on a surface of the latch; a rear end of the insulator is provided with a first positioning post projecting toward the bottom end of the insulator; and the projecting portion and the first positioning post of the cable connector are respectively cooperated with a docking connector. The cable connector can implement forward and reverse plug of the cable connector; thereby facilitating wiring of the customer on the mainboard.

A hot plugging type power module including a circuit board, a main battery, an assistant battery, a main control unit, and a detection unit is provided. The main battery is demountably disposed at the circuit board and coupled to the main control unit. The assistant battery is disposed at the circuit board. The main control unit is disposed at the circuit board and selectively and electrically connected to the main battery and the assistant battery. The main control unit detects a capacity of the main battery and the assistant battery. The detection unit is disposed at the circuit board and coupled to the main control unit and the main battery and is adapted for detecting a relative position between the main battery and the circuit board.