Charging cord assemblies for transferring power between electrified vehicles during in-flight bidirectional energy transfer events may include a cable including a wire bundle coated with a conductive foamed plastic shielding to establish a cable subassembly. The conductive foamed plastic shielding is configured to reduce electromagnetic interference (EMI) of the cable. Various cable routing arrangements may be utilized for routing the cable of the charging cord assembly during the in-flight bidirectional energy transfer events.

Charging cord assemblies for transferring power between electrified vehicles during in-flight bidirectional energy transfer events may include a cable including a wire bundle coated with a conductive foamed plastic shielding to establish a cable subassembly. The conductive foamed plastic shielding is configured to reduce electromagnetic interference (EMI) of the cable. Various cable routing arrangements may be utilized for routing the cable of the charging cord assembly during the in-flight bidirectional energy transfer events.

A connector lock structure includes a lock arm that extends along a fitting direction and is formed on a side wall of a connector housing, and maintains a fitted state by being elastically engaged with a counterpart connector housing; a pair of flexible and deformable plate-shaped support walls that protrude rearward of the side wall to sandwich a rear portion of the lock arm therebetween; a coupling portion that couples each of the plate-shaped support walls to the rear portion of the lock arm in a width direction of the connector housing; and an upward protruding portion that protrudes upward than the coupling portion and is formed on each of the plate-shaped support walls.

A spring clip includes a first beam and a second beam connected to the first beam and resiliently deflectable toward the first beam from a relaxed position distal from the first beam to a compressed position proximal to the first beam. The second beam has a spring latch extending toward the first beam. The spring latch engages the first beam to secure the second beam in the compressed position. The clip may be positioned in a housing having a rotatable cover formed to compress the clip against a conductor when moved to a closed position.

An electrical connector assembly having a first electrical connector or header including a base and a shroud extending therefrom. The shroud defines a first opening arranged opposite the base and a second lateral opening defined between two ends thereof. A second or mating connector of the assembly includes a mating end received within the first opening of the shroud in an insertion direction. A body of the second electrical connector is received within the second lateral opening of the shroud and includes a pair of covers or hoods with channels for receiving and mechanically joining the two ends of the shroud.

A conductor assembly structure for a rail-type terminal device includes a conductor assembly and an insulating housing. The conductor assembly structure can reduce manufacturing waste and has a larger contact surface and a better electric conduction effect. The conductor assembly has a base portion that can be pivotally connected with a conductive connector, and a first area and a second area connected to the base portion. The first area and the second area are respectively formed with a bowed portion and a first section and a second section connected to the bowed portion to be snapped onto a grounding mounting rail. At least one of the first area and the second area is provided with a load arm and an elastic member connected to the load arm for increasing the elastic fixing effect (force) of the first section and/or the second section on the grounding mounting rail.

A conductor assembly structure for a rail-type terminal device includes a conductor assembly and an insulating housing. The conductor assembly structure can reduce manufacturing waste and has a larger contact surface and a better electric conduction effect. The conductor assembly has a base portion that can be pivotally connected with a conductive connector, and a first area and a second area connected to the base portion. The first area and the second area are respectively formed with a bowed portion and a first section and a second section connected to the bowed portion to be snapped onto a grounding mounting rail. At least one of the first area and the second area is provided with a load arm and an elastic member connected to the load arm for increasing the elastic fixing effect (force) of the first section and/or the second section on the grounding mounting rail.

A connector assembly includes a housing with a terminal cavity and a terminal lock adapted to retain an electrical terminal in the terminal cavity. A terminal position assurance is attached to the housing and engages the terminal lock. The connector assembly also includes a protector plate with a protector body having a front plate face and an opposed back plate face. Terminal openings pass through the protector body. A plurality of staged locks are attached to the protector body for relative rotational movement. The staged locks extending beyond the front plate face and also extending beyond the back plate face. The protector plate is movable relative to the housing in a mate direction from a pre-stage position to a pre-lock position. The protector plate is retained in the pre-lock position relative to the housing against further movement in the mate direction by a staged lock.

Connector (1) comprising at least one female part (2) and at least one male part (3) engaging in the female part, and locking means (4) preventing any extraction of the male part from the female part, characterized in that the locking means comprise at least one removable locking part (4) arranged as an interface between the male part (3) and the female part (2), and the male and female parts comprise means of retention (24, 35) by mutual cooperation, the mutual disengaging of the retention means being rendered possible only after the withdrawal of the locking part.

The locking fastening device for two-part electrical connectors with axial coupling includes two male mistake-proofing mechanisms and two female mistake-proofing mechanisms included in the parts. The mistake-proofing mechanisms are positioned on both sides of the contacts of the two parts of the male and female electrical connector and respectively includes at least a protuberance and a bore axially cooperative to produce the fastening of the parts, during coupling.