An electrical connector, comprising a plurality of first terminals, a plurality of second terminals, and a partitioning member. The plurality of first terminals comprise at least one pair of first differential signal terminals and at least one first ground terminal. The plurality of second terminals comprise at least a pair of second differential signal terminals. The partitioning member is disposed between the first terminals and the second terminals. The partitioning member is grounded and comprises a partitioning member body and at least one first bump. The first bump is disposed at the partitioning member body. The partitioning member body is at least disposed between the pair of first differential signal terminals and the pair of second differential signal terminals to shield the pair of first differential signal terminals and the pair of second differential signal terminals. The first bump is electrically connected with the at least one first ground terminal.

An electrical connector, comprising a plurality of first terminals, a plurality of second terminals, and a partitioning member. The plurality of first terminals comprise at least one pair of first differential signal terminals and at least one first ground terminal. The plurality of second terminals comprise at least a pair of second differential signal terminals. The partitioning member is disposed between the first terminals and the second terminals. The partitioning member is grounded and comprises a partitioning member body and at least one first bump. The first bump is disposed at the partitioning member body. The partitioning member body is at least disposed between the pair of first differential signal terminals and the pair of second differential signal terminals to shield the pair of first differential signal terminals and the pair of second differential signal terminals. The first bump is electrically connected with the at least one first ground terminal.

A connector comprises an inner structure and an outer molded body. The inner structure comprises an inner molded body, a fit portion and a projecting portion. The fit portion projects forward from the inner molded body and is mated with a mating fit portion of a mating connector when the connector is connected to the mating connector. The projecting portion projects from the fit portion or the inner molded body. At least a part of the projecting portion is located outward of the fit portion in the upper-lower direction. The outer molded body has a rear portion and a front portion. The rear portion covers the inner molded body in a perpendicular plane perpendicular to the front-rear direction. The front portion extends forward from the rear portion and partially covers the fit portion in the perpendicular plane. The projecting portion is, at least in part, embedded in the front portion.

A power adapter with a Lightning female socket includes a main body and a housing, a Lightning female socket and an adapter unit on the main body, the Lightning female socket being electrically connected to the adapter unit; the housing being provided with an opening communicated to the Lightning female socket, the housing being sleeved on an exterior of the main body, and making the opening correspond to the Lightning female socket; the adapter unit being capable of providing electrical energy directly or indirectly to the Lightning female socket and outputting voltage and current outwardly through the Lightning female socket. By designing a power adapter with a Lightning female socket, a charging device and system, communication with an external terminal device and charging to the outside is achieved through the Lightning female socket.

A power adapter with a Lightning female socket includes a main body and a housing, a Lightning female socket and an adapter unit on the main body, the Lightning female socket being electrically connected to the adapter unit; the housing being provided with an opening communicated to the Lightning female socket, the housing being sleeved on an exterior of the main body, and making the opening correspond to the Lightning female socket; the adapter unit being capable of providing electrical energy directly or indirectly to the Lightning female socket and outputting voltage and current outwardly through the Lightning female socket. By designing a power adapter with a Lightning female socket, a charging device and system, communication with an external terminal device and charging to the outside is achieved through the Lightning female socket.

A strap connector includes an insulating body, a conductive element, a locking member, a pressing block, and a strap connected with the pressing block. The locking member includes a main body portion and a locking elastic arm. The main body portion includes a top plate. The locking elastic arm extends from the top plate and is used for locking with a mating connector. The pressing block is slidable backwardly under the pulling of the strap, so that the pressing block presses the top plate downwardly, and then the locking elastic arm moves downwardly to realize unlocking. When the unlocking method disclosed in the present disclosure is performed, it is only necessary to ensure that the pressing block slides over the top plate, which improves the reliability of unlocking.

An electrical connector suited for being assembled to a circuit board is provided. The electrical connector includes an insulating body, a plurality of terminals disposed in the insulating body, a first metallic shell sheathing the insulating body to form an insertion space, a second metallic shell superposed on the first metallic shell, and a metallic plate disposed in the insulating body. The second metallic shell has a rear plate opposite to the rear interface, and is not electrically connected to the circuit board. The metallic plate has at least one bending extending out of the insulating body to abut the rear plate, such that the metallic plate and the second metallic shell are electrically conducted.

An electrical connector suited for being assembled to a circuit board is provided. The electrical connector includes an insulating body, a plurality of terminals disposed in the insulating body, a first metallic shell sheathing the insulating body to form an insertion space, a second metallic shell superposed on the first metallic shell, and a metallic plate disposed in the insulating body. The second metallic shell has a rear plate opposite to the rear interface, and is not electrically connected to the circuit board. The metallic plate has at least one bending extending out of the insulating body to abut the rear plate, such that the metallic plate and the second metallic shell are electrically conducted.

Exemplary embodiments are disclosed of power delivery (PD) assemblies, including powering, charging, and data connect devices usable within vehicles, etc. In exemplary embodiments, a power block (e.g., standalone power block, wireless charger, etc.) may be connected via a vehicle harness to a user interface (PD charger only) or a user interface (USB hub with charging and data). Accordingly, power blocks having the same or common form factor and vehicle harnesses having the same or common configuration (Vbus PD, GND, CC1, and CC2) may therefore be used to interchangeably connect to charger only user interfaces or to user interfaces with charging and data.

A connector lock structure includes an insulating body, a plurality of terminals, a shell, a locking assembly, a sliding board, a pressing element and an unlocking tool. The insulating body is molded around the plurality of the terminals. The shell surrounds the insulating body. The locking assembly includes at least one lacking groove, and at least one elastic arm formed in the at least one lacking groove. The at least one elastic arm has a hook structure. The hook structure is cooperated with a blocking groove of a docking connector. The pressing element is mounted in the insulating body. The sliding board is slidably mounted under the pressing element. One end of the pressing element has a locking portion. The locking portion has a keyhole. The unlocking tool is inserted in the keyhole.