The invention pertains to a head part of an implantable device, its method of production and a plug assembly which can be fitted into the head part. The head part comprises a head part housing which has at least one blind hole plug contact socket with a socket opening and a socket base axially opposite the socket opening, along which at least one electrically conductive contact ring element and an electrically insulating, elastically deformable seal ring is positioned and which are enclosed by a solidified casting compound, are joined together in a coaxial arrangement and in an axially serial sequence.

The invention pertains to a head part of an implantable device, its method of production and a plug assembly which can be fitted into the head part. The head part comprises a head part housing which has at least one blind hole plug contact socket with a socket opening and a socket base axially opposite the socket opening, along which at least one electrically conductive contact ring element and an electrically insulating, elastically deformable seal ring is positioned and which are enclosed by a solidified casting compound, are joined together in a coaxial arrangement and in an axially serial sequence.

A power adapter includes a housing, a holder, a moving part, and a prong. The housing defines an inner cavity and a through groove communicating with the inner cavity, and the holder is received in the inner cavity and provided with a boss fitting the through groove. The boss defines a receiving groove at a side away from the inner cavity. The moving part is movably connected to the holder and partially exposed to an outside of the housing. The prong is rotationally connected to the boss, and the prong is movable relative to the holder along with the moving part, so that the prong is flippable to extend out from or retract to the receiving groove.

An electrical power interconnection system is described. The electrical interconnection system may comprise an electrical power connector and a substrate, such as a printed circuit board. The electrical power connector may comprise a housing and a plurality of electrical power contacts supported by the housing. The electrical power contacts may comprise a mounting end, a mating end, and a contact body disposed between the mounting end and the mating end. The electrical power contacts may have planar portions. The mating ends may comprise opposing first second beams defining a slot. The slot may be configured to receive the substrate therein, such that the first beam contacts the first side of the substrate and the second beam contacts the second side of the substrate.

An electrical power interconnection system is described. The electrical interconnection system may comprise an electrical power connector and a substrate, such as a printed circuit board. The electrical power connector may comprise a housing and a plurality of electrical power contacts supported by the housing. The electrical power contacts may comprise a mounting end, a mating end, and a contact body disposed between the mounting end and the mating end. The electrical power contacts may have planar portions. The mating ends may comprise opposing first second beams defining a slot. The slot may be configured to receive the substrate therein, such that the first beam contacts the first side of the substrate and the second beam contacts the second side of the substrate.

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.

A power connector includes an insulated housing and at least one electrical terminal assembly. The insulated housing has at least one terminal receiving hole. The at least one electrical terminal assembly is inserted in the at least one terminal receiving hole. Each electrical terminal assembly has an inner terminal, and an outer terminal. Each inner terminal has a connecting section, and an elastic section connected to the connecting section. Each outer terminal has a conductive portion, a leg portion arranged at one end of the conductive portion, and a curve portion arranged between the conductive portion and the leg portion. The leg portion is exposed outside of the insulated housing. The connecting section of the inner terminal is fixedly connected to the conductive portion of the outer terminal. The present disclosure further has an electrical terminal assembly.

A power connector includes an insulated housing and at least one electrical terminal assembly. The insulated housing has at least one terminal receiving hole. The at least one electrical terminal assembly is inserted in the at least one terminal receiving hole. Each electrical terminal assembly has an inner terminal, and an outer terminal. Each inner terminal has a connecting section, and an elastic section connected to the connecting section. Each outer terminal has a conductive portion, a leg portion arranged at one end of the conductive portion, and a curve portion arranged between the conductive portion and the leg portion. The leg portion is exposed outside of the insulated housing. The connecting section of the inner terminal is fixedly connected to the conductive portion of the outer terminal. The present disclosure further has an electrical terminal assembly.

A modular electrical connector with broad-side coupled signal conductors in a right angle intermediate portion. Broadside coupling provides balanced pairs for very high frequency operation. The connector is assembled with multiple subassemblies, each of which has multiple pairs of signal conductors. The subassemblies are formed from an insulative portion having grooves in opposite sides into which the intermediate portions of signal conductors. Covers, holding the signal conductors in the grooves, establish the position of the signal conductors relative to reference conductors at the exterior of subassembly, so as to provide a controlled impedance. Lossy material is positioned between the pairs in a subassembly and/or contacts the reference conductors of the subassemblies, and the lossy material of the subassemblies is in turn connected with a conductive structure.

The present application discloses an electric connection assembly having a support and a connector, wherein the support comprises a support body; the support body is provided with a mounting groove; the connector is configured to be in contact electrical connection with a mating connector; the connector comprises a mounting part; part or all of the mounting part is detachably received within the mounting groove; the support and the connector are formed separately and connected to each other. Compared with the prior art, the electric connection assembly of the present disclosure implements the function of supporting, holding and assembling integrally the corresponding connectors by means of the support provided with a mounting groove. Correspondingly, the entire structure of the electric connection assembly is simplified and convenient to be assembled.