A connector assembly for electrical contacts has been provided. The connector assembly includes a plug housing, a receptacle housing, and a locking mechanism. The receptacle housing includes a mounting shell. The locking mechanism is mounted on the mounting shell and configured to couple the plug housing with the receptacle housing, the locking mechanism including a latch. The locking mechanism transitions between a locked position and an open position by rotation of the latch. The receptacle housing is configured to engage with the plug housing when the locking mechanism is at the locked position. The receptacle housing is configured to disengage from the receptacle housing when the locking mechanism is at the open position. The locking mechanism further includes a tooled actuator configured to lock the locking mechanism when the locking mechanism is at the locked position, the tooled actuator sized to require a tool to operate the tooled actuator.

A connector includes a housing formed with a L-shape in a side view having a connection portion capable of fitting to a mating connector, a terminal mounted on the housing by inserting a connection terminal portion into a terminal accommodation portion of the connection portion, an electric wire connected to the electric wire of the terminal and led out from the housing, a ferrite core mounted on the electric wire and assembled from the rear side of the housing, and a cover mounted on the rear surface of the housing and covering the terminal and the ferrite core. The cover includes a recessed portion, which receives an end portion of the ferrite core inclined by an external impact, on a facing surface facing the ferrite core assembled to the housing.

A connector includes a housing formed with a L-shape in a side view having a connection portion capable of fitting to a mating connector, a terminal mounted on the housing by inserting a connection terminal portion into a terminal accommodation portion of the connection portion, an electric wire connected to the electric wire of the terminal and led out from the housing, a ferrite core mounted on the electric wire and assembled from the rear side of the housing, and a cover mounted on the rear surface of the housing and covering the terminal and the ferrite core. The cover includes a recessed portion, which receives an end portion of the ferrite core inclined by an external impact, on a facing surface facing the ferrite core assembled to the housing.

Presented are electrical conductor assemblies with vascular cooling systems, methods for making/using such assemblies, and vehicles equipped with such assemblies for transmitting power and coolant between electric devices. An electrical conductor assembly includes an outer sheath, an electrical conductor extending through the sheath, a coolant channel defined through the sheath, and an optional cable jacket encasing the electrical conductor. The outer sheath has a tubular body formed from an electrically insulating material. The electrical conductor has a solid cable body located within a conductor duct extending through the sheath. The coolant channel, which is coaxial with and thermally connected to the cable body, passes therethrough coolant fluid that cools the electrical conductor. The cable jacket may be formed from an electrically insulating material having a thermal conductivity and melting point higher than that of the sheath. The conductor assembly may include multiple electrical conductors circumferentially spaced around the coolant channel.

Presented are electrical conductor assemblies with vascular cooling systems, methods for making/using such assemblies, and vehicles equipped with such assemblies for transmitting power and coolant between electric devices. An electrical conductor assembly includes an outer sheath, an electrical conductor extending through the sheath, a coolant channel defined through the sheath, and an optional cable jacket encasing the electrical conductor. The outer sheath has a tubular body formed from an electrically insulating material. The electrical conductor has a solid cable body located within a conductor duct extending through the sheath. The coolant channel, which is coaxial with and thermally connected to the cable body, passes therethrough coolant fluid that cools the electrical conductor. The cable jacket may be formed from an electrically insulating material having a thermal conductivity and melting point higher than that of the sheath. The conductor assembly may include multiple electrical conductors circumferentially spaced around the coolant channel.

The present invention is directed to fluid compensated downhole connectors and connection systems employing an intensified dielectric fluid compensation. Also disclosed is a permanent downhole fluid compensated electrical connector assembly employing an intensified dielectric fluid compensation. The present disclosure is also directed to a field bypass connector system for a downhole completion tool, such as a packer, and a retrievable wet connect system also employing intensified dielectric fluid compensation.

The present invention is directed to fluid compensated downhole connectors and connection systems employing an intensified dielectric fluid compensation. Also disclosed is a permanent downhole fluid compensated electrical connector assembly employing an intensified dielectric fluid compensation. The present disclosure is also directed to a field bypass connector system for a downhole completion tool, such as a packer, and a retrievable wet connect system also employing intensified dielectric fluid compensation.

A scaled connector has a sealed plug and a sealed receptacle, each including a housing, support, bladder assembly, tagger assembly, and contacts coupled to the equipment. The bladder assembly includes an expandable bladder, and a seal plate earned by the expandable bladder between an expanded position about an opening in the housing and a contracted position a distance from the opening. The trigger assembly includes rod(s) extendable through the bladder and the seal plate. When the housing of the sealed receptacle is matingly connected to the housing of the sealed plug, the trigger assemblies extends through the seal plates and into triggered engagement with each oilier, a passageway through the seal plates are open, and the contacts of the sealed plug extend through the passageways and into engagement with the contact of the sealed receptacle.

A scaled connector has a sealed plug and a sealed receptacle, each including a housing, support, bladder assembly, tagger assembly, and contacts coupled to the equipment. The bladder assembly includes an expandable bladder, and a seal plate earned by the expandable bladder between an expanded position about an opening in the housing and a contracted position a distance from the opening. The trigger assembly includes rod(s) extendable through the bladder and the seal plate. When the housing of the sealed receptacle is matingly connected to the housing of the sealed plug, the trigger assemblies extends through the seal plates and into triggered engagement with each oilier, a passageway through the seal plates are open, and the contacts of the sealed plug extend through the passageways and into engagement with the contact of the sealed receptacle.

Systems, devices, and methods including: a cable; a housing having a tapered exit hole connected to an internal volume; a tapered seal having a tapered outer surface and an inner aperture, where the inner aperture of the tapered seal receives the cable; an encapsulant disposed in the internal volume and about one or more wires of the cable; and a compression cap placed over the tapered seal and about a flange of the housing to compress the tapered seal into the tapered exit hole; where compression from the compression cap forces the encapsulant up inside the cable and around the one or more wires of the cable, and where curing of the encapsulant seals the cable from moisture incursion.