To provide the electric propulsion vehicle charging cable compatible with power sources of different standards, and the power adapter attached to an electric propulsion vehicle charging cable, the power plug of the electric propulsion vehicle charging cable includes has an electrode structure including three high-voltage electrodes and a high-voltage ground pin, the electric propulsion vehicle charging cable used for charging a battery of the electric propulsion vehicle by using two of the three high-voltage electrodes, and the power adapter has electrode receptacles to which the three high-voltage electrodes and the high-voltage ground pin are connected and connection terminals having an electrode structure corresponding to a power source of a different standard from the electrode structure of the power plug.

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.

A combination outlet assembly includes a single piece integrally formed housing having first and second outlet cores respectively having a similar outer shape and profile but differently shaped sets of three terminal apertures, and three terminals associated with each respective set of three terminal apertures in the first outlet core and the second outlet core. The first outlet core and the second outlet core may be interchangeably used with power cord plug connectors of different types. Power cord latching features are also described. Power distribution units may include a number of combination outlet assemblies ganged together.

A terminal block for wire connection is provided, including a casing and a wire clamping body arranged in the casing; the casing includes a first casing and a second casing, and the first casing and the second casing are respectively configured with pressing keys, each of the pressing keys is configured to press the wire clamping body, so as to trigger closing or opening of the wire clamping body to make wires is switched between the clamping state and the detachable state, wherein the wires is inserted into the wire clamping body along one side of the first casing or the second casing. The first casing and the second casing are aligned and abutted with each other to form a space for holding the wire clamping body, so as to assemble the wire clamping body in the casing.

A radio-frequency connector assembly includes a male connector and a female connector, which is plugged and matched with the male connector. The male connector includes a male substrate and a shielding case covering the male substrate. The female connector includes a female substrate and a shielding frame having the female substrate disposed therein. Multiple bumps which are distributed along an inner peripheral wall of the shielding case are disposed on at least one of the inner peripheral wall of the shielding case and an outer peripheral wall of the shielding frame, and a distance between every two adjacent bumps is less than or equal to one quarter wavelength of the operating frequency of the radio-frequency connector assembly. Signals in all directions can be shielded in the connector, effectively improving the shielding effect of the radio-frequency connector and the electrical properties of the radio frequency connector.

A female connector structure is provided with a shielded cable configured such that an outer periphery of a coated wire including a core and an insulation coating is surrounded by a braided wire, a female terminal including a wire barrel to be connected to the core and a connecting tube portion and to be connected to a mating terminal, an insulating dielectric for surrounding an outer periphery of the connecting tube portion of the female terminal, a rear outer conductor including a shield connecting portion to be electrically connected to the braided wire and a dielectric crimping portion to be crimped to at least a part of the dielectric from outside, and a front outer conductor including a front tube portion for surrounding an outer periphery of the dielectric and a rear outer conductor locking portion for locking at least a part of the dielectric crimping portion from outside.

Connector assembly for electrically connecting an inverter busbar to an electrical connector of a drive unit comprising: a carrier, an intermediate busbar comprising a first terminal with a hole, and a first fastening element extending through the hole of the first terminal, wherein the intermediate busbar is mounted to the carrier and the intermediate busbar is connectable to the inverter busbar by the first fastening element, wherein the carrier comprises a positioning pin defining a longitudinal axis, said positioning pin being adapted to be accommodated in a receptacle of a housing of the drive unit such that the carrier is axially slidable in the direction of the longitudinal axis; and that the first fastening element is arranged within the hole of the first terminal with a radial clearance relative to the longitudinal axis of the positioning pin.

A female connector structure is provided with a shielded cable configured such that an outer periphery of a coated wire including a core and an insulation coating is surrounded by a braided wire, a female terminal including a wire barrel to be connected to the core and a connecting tube portion and to be connected to a mating terminal, an insulating dielectric for surrounding an outer periphery of the connecting tube portion of the female terminal, a rear outer conductor including a shield connecting portion to be electrically connected to the braided wire and a dielectric crimping portion to be crimped to at least a part of the dielectric from outside, and a front outer conductor including a front tube portion for surrounding an outer periphery of the dielectric and a rear outer conductor locking portion for locking at least a part of the dielectric crimping portion from outside.

A connector includes: a terminal fitting; a housing accommodating the terminal fitting therein and including a fitting portion to be inserted and fitted into a mating fitting portion along a connector insertion direction; a water stop member including an annular water stop main body whose inner circumferential surface is coaxially in close contact with an outer circumferential wall surface of the fitting portion, the water stop member being elastically deformable so as to fill an annular gap between the fitting portion and the mating fitting portion by the water stop main body at a fitting completion position of the fitting portion and the mating fitting portion; and a rotation stop structure provided at a position between the housing and the water stop member to restrict relative rotation in a circumferential direction of the water stop member relative to the fitting portion.

A charging plug for high-current charging equipment, the upper end face of main body is provided with an abutting hole corresponding to the socket, and the conducting strips are partially exposed in the abutting hole. A boss extends transversely along the edge of abutting hole in the main body. The charging plug is provided with a protective cover. The protective cover comprises a cover body matching the abutting hole, a collar part fitted over main body and an interconnecting piece connecting the cover body with collar part.