A plug-in connector part for plug-in connection to a mating plug-in connector part includes: a housing part which has at least one receiving opening and at least one electrical contact element disposed in the at least one receiving opening; and a staking element arranged on the housing part and which in a preassembled state of the connector part is movable along a staking direction to the housing part and by moving in the staking direction is brought into interaction with a staking section of the housing part so that, in an assembled state, the at least one electrical contact element is staked to the housing part.

A plug-in connector part for plug-in connection to a mating plug-in connector part includes: a housing part which has at least one receiving opening and at least one electrical contact element disposed in the at least one receiving opening; and a staking element arranged on the housing part and which in a preassembled state of the connector part is movable along a staking direction to the housing part and by moving in the staking direction is brought into interaction with a staking section of the housing part so that, in an assembled state, the at least one electrical contact element is staked to the housing part.

A plug connector having a contact support (2), wherein at least one contact chamber is provided in the contact support (2) and a contact partner (3) is inserted into the contact chamber and primarily locked therein, wherein each contact partner is allocated a throughgoing hole on one side of the contact support (2) for the primary latch formation and so as to increase the transmission rate, and a further single throughgoing hole is provided on the opposite side of the contact support (2), wherein the throughgoing holes have an elongated rectangular shape.

A plug connector having a contact support (2), wherein at least one contact chamber is provided in the contact support (2) and a contact partner (3) is inserted into the contact chamber and primarily locked therein, wherein each contact partner is allocated a throughgoing hole on one side of the contact support (2) for the primary latch formation and so as to increase the transmission rate, and a further single throughgoing hole is provided on the opposite side of the contact support (2), wherein the throughgoing holes have an elongated rectangular shape.

A conductor includes a plate-shaped bus bar, and an exterior component attached to the bus bar. The bus bar includes a conductor portion and an insulating sheath with which the conductor portion is covered, and at least partially includes an attached portion having a twisted shape in which the bus bar extends while being twisted around an axis of the bus bar. The exterior component includes a body portion having a groove portion extending so as to be capable of accommodating the attached portion of the bus bar, and a cover portion capable of opening and closing an opening portion of the groove portion.

A conductor includes a plate-shaped bus bar, and an exterior component attached to the bus bar. The bus bar includes a conductor portion and an insulating sheath with which the conductor portion is covered, and at least partially includes an attached portion having a twisted shape in which the bus bar extends while being twisted around an axis of the bus bar. The exterior component includes a body portion having a groove portion extending so as to be capable of accommodating the attached portion of the bus bar, and a cover portion capable of opening and closing an opening portion of the groove portion.

The disclosure relates to an electrical connector having an electrical contact assembly housed within a cavity of a connector shell. The contact assembly includes a contact housing with a core extending in an axial direction and a plurality of fins radiating outwardly from the core, each of the fins separating adjacent housing-receiving cavities from one another. In an assembled configuration, a first plurality of electrical contacts is housed within a first housing receiving cavity and a second plurality of electrical contacts is housed within a second housing receiving cavity, where the first and second plurality of electrical contacts are different in type and structure from one another such that the electrical connector accommodates multiple contact layouts to improve overall functionality.

The disclosure relates to an electrical connector having an electrical contact assembly housed within a cavity of a connector shell. The contact assembly includes a contact housing with a core extending in an axial direction and a plurality of fins radiating outwardly from the core, each of the fins separating adjacent housing-receiving cavities from one another. In an assembled configuration, a first plurality of electrical contacts is housed within a first housing receiving cavity and a second plurality of electrical contacts is housed within a second housing receiving cavity, where the first and second plurality of electrical contacts are different in type and structure from one another such that the electrical connector accommodates multiple contact layouts to improve overall functionality.

An electrical connector includes an insulating housing and a plurality of power contact pairs, the insulating housing has a mounting section for installing on a printed circuit board, a mating section and a plurality of contact-receiving passageways extending along a front-and-back direction. The power contact pairs are retained in corresponding contact-receiving passageways and divided into two rows along a height direction, each power contact pair in each row has two flaky power contacts, each power contact has a retaining portion held in the relative contact-receiving passageway, at least one contacting portion extending forwards from the retaining portion and at least one soldering portion bending from a rear end of the retaining portion. One row of power contact pairs is assembled into the insulative housing along a back-to-front direction, and the other row of power contact pairs is assembled into the insulative housing in an up-and-down direction.

An electrical connector includes an insulating housing and a plurality of power contact pairs, the insulating housing has a mounting section for installing on a printed circuit board, a mating section and a plurality of contact-receiving passageways extending along a front-and-back direction. The power contact pairs are retained in corresponding contact-receiving passageways and divided into two rows along a height direction, each power contact pair in each row has two flaky power contacts, each power contact has a retaining portion held in the relative contact-receiving passageway, at least one contacting portion extending forwards from the retaining portion and at least one soldering portion bending from a rear end of the retaining portion. One row of power contact pairs is assembled into the insulative housing along a back-to-front direction, and the other row of power contact pairs is assembled into the insulative housing in an up-and-down direction.