A multi-joint junction having a plurality of selectively adaptable female well interfaces. Each of the well interfaces can have a generally uniform shape, size, and/or configuration such that each well interface is configured to generally interchangeably receive the same sized and/or shaped mating male connector or contact interface. The interfaces of the multi-joint junction can also be limited to female contact interfaces, and not include any male connectors or contact interfaces. Such a configuration can provide a degree of modularity that can improve the ease with which the multi-point junction can be adapted to conform to different demands, applications and/or system configurations.

A motor includes a stator including a stator core and coils, and neutral point bus bars disposed on a first side of the coils in an axial direction. The plural coils include a first coil group of a first control system, and a second coil group of a second control system. The neutral point bus bars include a first neutral point bus bar to which the coils of the first coil group are electrically connected, and a second neutral point bus bar to which the coils of the second coil group are connected. At least two of the neutral point bus bars are disposed at positions that overlap each other in the radial direction.

A battery connector (1) is provided for electrically contact-connecting a first pole pin (19) of a first battery module (10) to a second pole pin (20) of a second battery module (10). The battery connector (1) has a busbar (1) with a first contact region (2), a second contact region (3) and a connecting region (4) arranged between the first contact region (2) and the second contact region (3) in a main direction of extent (H) of the busbar (1). The connecting region (4) has an electrically insulating coating. The first contact region (2) and the second contact region (3) each have a cutout (5). The cutouts (5) are open in an insertion direction (E) that is parallel to a main plane of extent (HE) of the busbar (1) and orthogonal to the main direction of extent (H).

A variable connection retention system for a busbar. The retention system comprises of a dielectric overmold base. A main busbar is nested within overmold and engages a mating busbar. The overmold base includes a floating retention nut that displaces axially which engages the main busbar to the mating busbar when torque is applied.

A current transport mechanism with an elongated, electromechanical base conductor that has an electrically rigidly mechanical plug-in connection device connected thereto in an electrically-rigidly mechanical manner and which, in turn, can be electrically contacted by an electrically-rigidly mechanical mating plug-in connection device.

An electric compressor includes a terminal structure. The terminal structure may include a busbar assembly electrically connected to an inverter and a terminal electrically connected to a motor part. The terminal structure may include at least one electrical connection member. Contact plates may be electrically connected to each end of the electric connection member. The busbar assembly for electrically connecting the terminal and the inverter device may include a plurality of busbars having a large surface area. When high current is applied to the electric compressor, as the surface area of respective members brought into contact with each other for electric connection increases, contact heat resistance decreases, which makes it possible to apply a high current without increasing the size of the terminal.

An electrical connector for use with a separable mating connector includes base and a contact element captively received within the base. The contact element may be laterally or laterally and rotatably displaceable with respect to the base.

An electrical connector for use with a separable mating connector includes base and a contact element captively received within the base. The contact element may be laterally or laterally and rotatably displaceable with respect to the base.

A connector includes a plurality of conductors, a magnetic core, and a housing, the housing includes a housing member that is provided with a housing chamber that houses the plurality of conductors and the magnetic core, an abutment surface on which a core assembling portion abuts, and an opening that is arranged to face the abutment surface at an interval and exposes the core assembling portion housed in the housing chamber outward, the core assembling portion being composed of the respective intermediate portions of the plurality of conductors and the magnetic core housed in the housing chamber; a cover member that closes the opening; and a pressing member that is sandwiched between the cover member and the core assembling portion by pressing the core assembling portion to push the core assembling portion against the abutment surface when the housing member and the cover member are in an assembled state.

An electrical connector for use with a separable mating connector includes base and a contact element captively received within the base. The contact element may be laterally or laterally and pivotably displaceable with respect to the base.