A hybrid SPE connector unit includes a housing, a male hybrid SPE input connector mounted on the housing, and at least one female SPE output connector mounted on the housing. The female SPE output connector is selected from a group of connectors including a female SPE only connector and a female hybrid SPE connector. The housing has a PCB side with a mechanical interface and an electrical interface for mounting and connecting the hybrid SPE connector unit to a PCB.

An exemplary connector insert assembly, and methods of manufacture and use thereof. In one embodiment, the connector insert assembly comprises an insert body assembly consisting of two insert body elements made from a high-temperature polymer. The insert body assembly includes an electronic component receiving cavity that is configured to receive any number of electronic components, including without limitation, chip chokes and wire wound electronic components. The insert body assembly includes a wire termination feature that includes termination slots that position the wire ends of the wire wound electronic components adjacent to a substrate to which the wire ends are ultimately to be secured. The wire ends are then secured to the substrate using, for example, a mass termination technique. The aforementioned connector insert assembly can then be inserted into a single or multi-port connector assembly. Methods of manufacturing the aforementioned single or multi-port connector assemblies are also disclosed.

An exemplary connector insert assembly, and methods of manufacture and use thereof. In one embodiment, the connector insert assembly comprises an insert body assembly consisting of two insert body elements made from a high-temperature polymer. The insert body assembly includes an electronic component receiving cavity that is configured to receive any number of electronic components, including without limitation, chip chokes and wire wound electronic components. The insert body assembly includes a wire termination feature that includes termination slots that position the wire ends of the wire wound electronic components adjacent to a substrate to which the wire ends are ultimately to be secured. The wire ends are then secured to the substrate using, for example, a mass termination technique. The aforementioned connector insert assembly can then be inserted into a single or multi-port connector assembly. Methods of manufacturing the aforementioned single or multi-port connector assemblies are also disclosed.

A filter assembly for a high-voltage connector is disclosed. The filter assembly has a first and a second bus bar, a filter circuit disposed on a circuit carrier, a ring core, and a filter housing. Each bus bar has a first terminal section, a second terminal section, and a connecting section between the first terminal section and the second terminal section. The filter circuit, the ring core, and at least a part of the first and second bus bars are disposed in the filter housing. The first and second bus bars extend substantially parallel to each other and through the ring core. The circuit carrier is disposed in a region of the filter housing in which the connecting section of each of the first and second bus bars is accommodated.

The present application is to provide a wiring structure of an electrical appliance which can stabilize the amount of protrusion of a busbar from a control board.

The wiring structure of the electrical appliance includes: a connector fixed to a housing and has an outer connector housing and an inner connector housing; a busbar in which one side is arranged in the outer connector housing of the connector and the other side is extended to the outside of the inner connector housing of the connector; and a control board through which the other side of the busbar passes. Then, the wiring structure of the electrical appliance includes a gasket which is attached by insertion between an outer peripheral portion of the connector and an inner peripheral portion of the housing which faces the outer peripheral portion of the connector, and seals a gap between the connector and the housing.

The present invention aims to stably arrange a ferrite core in a housing. A connector 10 includes a ferrite core 12, and a housing 11 including a receiving portion 20 that receives the ferrite core 12. At least one of an inner peripheral surface 23 of the receiving portion 20 and an outer peripheral surface 12A of the ferrite core 12 includes a protrusion (first protrusion 21, for example) that is in contact with the other peripheral surface so as to hold the ferrite core 12 within the receiving portion 20.

The present invention aims to stably arrange a ferrite core in a housing. A connector 10 includes a ferrite core 12, and a housing 11 including a receiving portion 20 that receives the ferrite core 12. At least one of an inner peripheral surface 23 of the receiving portion 20 and an outer peripheral surface 12A of the ferrite core 12 includes a protrusion (first protrusion 21, for example) that is in contact with the other peripheral surface so as to hold the ferrite core 12 within the receiving portion 20.

A network connector and method for making a network connector. The connector includes a core body, and first and second sets of contacts supported by the core body. Each of the of contacts having an exposed portion extending outside of the core body. Wires are coupled to the first and second sets of contacts. An internal printed circuit board is supported on the core body. The internal printed circuit board is coupled to the exposed portions of the first set of contact. A magnetic isolation component supported on the core body configured to filter electrical signals of the plurality of wires. The exposed portions of the second set of contacts are configured to engage an external printed circuit board.

A network connector and method for making a network connector. The connector includes a core body, and first and second sets of contacts supported by the core body. Each of the of contacts having an exposed portion extending outside of the core body. Wires are coupled to the first and second sets of contacts. An internal printed circuit board is supported on the core body. The internal printed circuit board is coupled to the exposed portions of the first set of contact. A magnetic isolation component supported on the core body configured to filter electrical signals of the plurality of wires. The exposed portions of the second set of contacts are configured to engage an external printed circuit board.

A connector with a built-in ferrite core is disclosed which suppresses the damage of the ferrite core and has an excellent degree of freedom in selecting a resin material to be used. A connector 10 with a built-in ferrite core includes a terminal fitting 12, a ferrite core 14 to be arranged to surround the terminal fitting 12 and a connector housing 16 for accommodating the terminal fitting 12 and the ferrite core. The connector housing 16 includes a first resin portion 18 for holding the terminal fitting 12 in an embedded state and a second resin portion 20 for holding the first resin portion 18 and the ferrite core 14 in an embedded state.