The invention relates to a plug-in connector (1) having a contact support (2) with at least two contact cavities (3), in each of which a contact partner is inserted and primarily locked. At least one locking tab (4) is provided and has at least one locking pin (6), and each respective contact partner is secondarily locked in its contact cavity (3) by means of a respective locking pin (6). The invention is characterized in that a slot (8) is arranged in the contact support (2) between two contact cavities (3), and the locking tab (4) has a rib (7), said rib (7) engaging into the slot (8) when the locking tab (4) is located on the contact support (2) in its intended position.

A connector system includes a header assembly, a receptacle and a connector position assurance (CPA) device. The CPA device has features which prevent the longitudinal movement of the CPA device relative to the receptacle until the receptacle is inserted into the header assembly. The CPA device includes a housing which has arms supported at both ends for increased strength. The CPA device, when assembled with the receptacle, provides a low-profile assembly.

A connector assembly includes a first connector housing, a second connector housing, and a connector position assurance (CPA) locking mechanism. The connector housings are connected via a detent connection. The CPA locking mechanism secures the detent connection against unintentional disconnection. The CPA locking mechanism forms a cable holder for fastening adjacent connecting lines.

A connector assembly includes at least a first module and a second module. Each one of the first and second modules are attached together. The first module includes first terminal position assurance device for ensuring that an electrical coupling element, such as an HMTD coupler accommodated in the second module is completely inserted in its cavity formed in the second module. The first module can be replaced by another having a different number of channels, whereas the second module remains the same.

A grounding electrical connector assembly may have a connector subassembly and a terminal subassembly. The connector subassembly may include a connector housing having a body defining a terminal cavity therein and a ground bar, secured to the connector housing, having electrical contacts extending into the terminal cavity and a portion that secures to grounding structure. The terminal subassembly may include a terminal housing having a main body defining terminal cavities extending therethrough that each receive one of a plurality of terminals, the main body telescopically slidable into and releasably secured to the terminal cavity.

A joint connector includes a housing comprising a plurality of insertion holes. A first isolation terminal is inserted into a first insertion hole of the plurality of insertion holes. The first isolation terminal is configured to block current flow. A connection terminal is inserted into a second insertion hole of the plurality of insertion holes. The second insertion hole is adjacent to the first insertion hole and is electrically connected to the first isolation terminal.

A connector includes: a plurality of terminals; a housing having a tubular outer wall part, a holding part having a plurality of terminal housing chambers, lances positioned radially outside the respective terminal housing chambers, and a locking part; and a detection member having a tubular fitting part to be fit to the holding part and an engaging part. The lances, when the respective terminals are inserted into a regular position in the respective terminal housing chambers, enter the inside of the fitting part when the fitting part is fit to the holding part and, when the respective terminal are not inserted into the regular position, are pressed by the respective terminals to become deformed radially outward and to lock the fitting part at a first position, the first position being short of a position at which the engaging part is engaged with the locking part.

A connector housing for an electrical connector includes a first housing having a plurality of electrical terminals and a second housing pluggable with the first housing in a translational manner. The second housing has a single secondary locking projection indirectly or directly locking at least two of the electrical terminals of the first housing in a secondary locking manner.

A connector system includes a connector body defining a terminal cavity and a first and second groove each extending along an outer surface of the connector body and a terminal retainer attached to the connector body and moveable from a pre-staged position to a staged position. The terminal retainer retains a terminal within the cavity in the staged position. The terminal retainer has a base, a pair of first cantilevered arms extending from the base, a crossbar extending between the first arms defining a first latch feature, and a second cantilevered arm extending from the crossbar. The second arm is between the pair of first arms and defines a second latch feature. The first latch feature engages the first groove in the pre-staged position and the second groove in the staged position. The second latch feature engages the first groove in the staged position.

A plug connector for establishing an external connection to a printed circuit board, including at least two angled pin-shaped contacts including a first leg, for making contact with a mating plug connector, and a second leg, for making contact with the printed circuit board, an insulating body for accommodating the contacts at least in the region of the first leg, and a contact carrier for accommodating the contacts at the second leg thereof, wherein the contacts, at the end of the second leg, include a stop acting in the axial direction, and the contact carrier includes through-openings including a counter-stop for the second legs and can be moved in the axial direction of the second legs into a housing and be fixed therein. In this way, all the contacts are located on one plane with respect to the printed circuit board and allow the use of SMD or THR processes.