Apparatuses, systems, and methods are described that provide improved networking communication systems and associated adapters. An example networking communication adapter includes an adapter housing defining a first end and a second end opposite the first end. The first end is configured to engage an Octal Small Form Factor Pluggable (OSFP) connector, and the second end is configured to receive a Quad Small Form Factor Pluggable Double Density (QSFP-DD) transceiver therein. The networking communication adapter further includes an inner connector positioned within the adapter housing. In an operational configuration in which the first end engages the OSFP connector and the second end receives the QSFP-DD transceiver, the inner connector operably connects the QSFP-DD transceiver with the OSFP connector such that signals may pass therebetween.

A method and apparatus for a lighting assembly for a vehicle can include a housing assembly and a set of adaptors. Vehicles today are often limited to specific wiring harnesses or connection types based upon manufacturer. Each adaptor of the set of adaptors can include a different connection type. The adaptors are interchangeably connectable to the housing assembly in order to vary the connection type based upon the specific wiring harness or connection type of the particular vehicle.

This invention relates to configurable electrical receptacles and more particularly to electrical receptacles that accept in-situ replacement of an insert providing a specific functionality within an electrical receptacle which is configurable to function or user accessible feature.

This invention relates to configurable electrical receptacles and more particularly to electrical receptacles that accept in-situ replacement of an insert providing a specific functionality within an electrical receptacle which is configurable to function or user accessible feature.

Technologies for a harness connected with an integrated wireless transceiver are disclosed. In the illustrative embodiment, an in-line connector with an integrated wireless transceiver is inserted between a vehicle connector and a trailer connector of a trailer wiring harness assembly. The wireless transceiver connects to a wireless sensor such as a camera and passes the sensor data to the vehicle connector. Connections from the trailer connector designated for video or other sensor data may not be connected to corresponding connections of the vehicle connector.

Apparatuses, systems, and methods are described that provide improved networking communication systems and associated adapters. An example networking communication adapter includes an adapter housing defining a first end and a second end opposite the first end. The first end is configured to engage an Octal Small Form Factor Pluggable (OSFP) connector, and the second end is configured to receive a Quad Small Form Factor Pluggable Double Density (QSFP-DD) transceiver therein. The networking communication adapter further includes an inner connector positioned within the adapter housing. In an operational configuration in which the first end engages the OSFP connector and the second end receives the QSFP-DD transceiver, the inner connector operably connects the QSFP-DD transceiver with the OSFP connector such that signals may pass therebetween.

A connector assembly includes: a housing having a first side at which a plurality of accommodating grooves configured to receive a plurality of terminals are formed, and having a second side open; a plurality of connection terminals extending in a direction parallel to a direction from the first side of the housing toward the second side of the housing, and fixed in the housing; a circuit board inserted into the second side of the housing that is open, fixed to the housing, and electrically connected to the plurality of connection terminals; and noise filters configured to filter out electromagnetic interference and coupled to the circuit board.

An electrical connector includes a terminal module having a circuit board having first through eighth conductive traces sequentially arranged in a transverse direction and corresponding first through eighth terminals, the third terminal and the sixth terminal being configured for transmitting a pair of differential signals, the fourth terminal and the fifth terminal being configured for transmitting another pair of differential signals, the first through eighth conductive traces being respectively electrically connected to corresponding first through eighth terminals, each of the third conductive trace and the fifth conductive trace including a coupling portion, a size of the coupling portion in the transverse direction is larger than a size of the other part of the corresponding conductive trace in the transverse direction, wherein the coupling portion of the third conductive trace and the coupling portion of the fifth conductive trace overlap in an up and down direction to increase mutual coupling.

An electrical connector includes: an insulative housing having a recess at an outer surface thereof; plural contacts secured to the insulative housing and each including a securing portion, a front contacting portion, and a rear tail; an internal printed circuit board (PCB) having plural conductive pads connected to the rear tails of the contacts and an auxiliary ground pad; a metallic cover enclosing the insulative housing; and a coupling piece received in the recess of the insulative housing, the coupling piece either connecting the metallic cover to the auxiliary ground pad of the PCB or connecting the metallic cover to a corresponding ground contact of the plurality of contacts or both.

A cable assembly includes a connector head electrically coupled to a plurality of conductors disposed in a cable, the connector head having a plug and a conductor interface; an outer shell including a first portion encasing the plug of the connector head, and a second portion encasing the conductor interface of the connector end; an inner shell including a connector end encasing the second portion of the outer shell, and a cable end encasing a portion of the cable and including an injection gate; and conductive resin including a first portion disposed inside the connector end of the inner shell, and a second portion disposed inside and outside the cable end of the inner shell; wherein inside and outside portions of the second portion of the conductive resin are connected through the injection gate.