An insertable high-voltage bushing includes an inner conductor which extends in a longitudinal direction between a high-voltage terminal and a plug-in section of the high-voltage bushing. The plug-in section is configured for the insertion of the high-voltage bushing into a device connection part of an electrical device. An insulating body at least partially extends around the inner conductor. A housing at least partially extends around the outside of insulating body. The housing includes a tubular housing element which extends between a head fitting at the high-voltage terminal of the high-voltage bushing and a mounting flange for fastening the high-voltage bushing to a device housing of the electrical device. The housing element is made of a composite material and a secondary insulation provided between the housing element and the insulating body is formed of a dry foam.

A liquid-cooled charging system for a vehicle is configured to dissipate heat generated during charging (including fast-charging) of an electrically-powered vehicle. The liquid-cooled charging system includes a charging assembly having an interface assembly configured to support a charging plug of a charging station and an energy transfer assembly configured to electrically couple the charging station to the battery of the vehicle during charging. Components of the charging assembly and energy transfer assembly also define a fluid circuit. A coolant system of the liquid-cooled charging system is fluidly connected to the fluid circuit, allowing coolant to flow through the fluid circuit to dissipate heat from the charging assembly components during charging of the vehicle.

Devices and methods for a sealed electrical connector are described herein. Some embodiments include a spring connecting a first PCB to a second PCB, wherein the spring includes a first end portion in contact with the first PCB, a second end portion in contact with the second PCB, and a middle portion extending between the first end portion and the second end portion, a spacer surrounding the middle portion of the spring, a first seal seated in a first groove of the spacer and in contact with the first PCB, and a second seal seated in a second groove of the spacer and in contact with the second PCB.

Various techniques are provided for displacing air from partial discharge sensitive regions of a connector of a low partial discharge high voltage connector to other regions of the low partial discharge high voltage connector where electrical flux is reduced. A plug member is mated with a receptacle member to provide the connector, with a seal member disposed in a cavity provided by the plug member and/or the receptacle member. In response to the mating, the seal member is compressed at an initial contact region between an innermost layer and an outermost layer of the seal member. In response to the compressing, air is forced radially inward toward the innermost layer and radially outward toward the outermost layer away from the initial contact region to reduce partial discharge associated with the connector. Additional methods and systems are also provided.

The invention relates to a cable lug (10, 10′, 10″, 10′″) having a connection region (9, 9″, 9′″) for connecting the cable lug (10, 10′, 10″, 10′″) to an electrical conductor (4) and having a contact part (11) for establishing contact with a terminal part (40) of an electrical system (42), in particular of an electrical system of a motor vehicle, the contact part (11) comprising a fastening opening (12) for guiding therethrough a fastening element (46) for fastening the cable lug (10, 10′, 10″, 10′″) to a terminal part (4), and wherein the contact part (11) comprises one or more further openings (13). The invention further relates to the use of the cable lug (10, 10′, 10″, 10′″), a contact element (2) with such a cable log (10, 10′, 10″, 10′″) as well as to a method for producing the same.

An electrical connecting device having a main body and a displacement body mounted in a linearly movable manner relative to one another in a longitudinal direction. The main body has a cavity that accommodates a longitudinal section of the displacement body or vice versa. The length of the longitudinal section accommodated in the cavity is variable by a relative longitudinal movement of the main body and the displacement body. The main body has conductor tracks extending in the longitudinal direction and insulated from one another. The displacement body has sliding elements insulated from one another and resting on and electrically contacting a contact surface of a respective one of the conductor tracks. The conductor tracks are arranged on a main body surface of the main body. The main body surface is round in a cross-sectional plane perpendicular to the longitudinal direction or is formed by a plurality of surface sections angled in relation to one another. The sliding elements project from a displacement body surface of the displacement body. The displacement body surface is round in the cross-sectional plane or is formed by a plurality of surface sections angled in relation to one another. The contact surfaces of at least two of the conductor tracks are angled in relation to one another.

A connector includes a plurality of terminals to be respectively connected to end parts of a plurality of wires, an annular connector housing for accommodating the plurality of terminals, and an inner member to be mounted on an end part of the connector housing. The connector includes a plurality of through holes provided in the inner member, the plurality of wires being individually passed through the plurality of through holes, a plurality of annular sealing members to be individually fit inside the plurality of through holes, and an annular sealing member to be fit outside the inner member. The sealing members are held in close contact with outer peripheral surfaces of the wires and inner peripheral surfaces of the through holes. The sealing member is held in close contact with an outer peripheral surface of the inner member and an inner peripheral surface of the connector housing.

An electro-mechanical connection apparatus. The apparatus includes a connection base configured to mechanically support an external device, and a first connection device operably connected to the connection base, wherein the first connection device is configured to operably connect with a second connection device associated with the external device. The first connection device includes a first electrical contact configured to establish an electrical connection with a second electrical contact of the external device, wherein the first electrical contact establishes the electrical connection with the second electrical contact while the connection base mechanically supports the external device.

A lock portion (19) projects on an outer surface of a receptacle (12). A housing (61) is fit into the receptacle (12). A lock arm (77) deflectably and deformably projects on an outer surface of the housing (61). The lock arm (77) locks the lock portion (19) while being in contact with an outer surface on an opening end side of the receptacle (12). A tip-side restricting portion (31) configured to come into contact with or proximately face a tip part (88) of the lock arm (77) is provided on the outer surface of the receptacle (12). A sealing member (90) is held in close contact with an inner surface on the opening end side of the receptacle (12).

It is an object to provide a technique with which the length of a portion of a terminal-equipped electric wire disposed in a cavity of a connector housing can be shortened. A terminal-equipped electric wire including: a coated electric wire including a conductor core wire and an insulation coating that covers the conductor core wire; a joint terminal connected to the conductor core wire; a connector terminal to be connected to a partner terminal; a single-core relay conductor in which one end thereof is connected to the joint terminal and another end thereof is connected to the connector terminal; and a sealing member that covers an intermediate portion of the relay conductor. A wire barrel of the joint terminal is crimped to the conductor core wire and the relay conductor at the same position in a longitudinal direction of the joint terminal.