A connector assembly device includes a connector element and a connector position assurance (CPA) device mounted to move relative to the connector element between a delivery position and a locking position. The connector element includes a first locking device and a second locking device. The CPA device includes a locking lance that has an associated first locking device configured to implement a first form-fitting connection with the first locking device of the connector element and an associated second locking device configured to implement a second form-fitting connection with the second locking device of the connector element in the locking position. The form-fitting connections prevent any movement of the CPA device in a direction from the locking position towards the delivery position and take place in different planes.

Components and systems include devices for implementing downhole splice connections within a wellbore. In some embodiments, a downhole splice connector includes at least one connector body having an inner diameter defining a cavity within which at least one connector receptacle is disposed, and at least one conductive center pin disposed within the at least one connector receptacle. The downhole splice connector further includes at least one pressure sleeve annularly disposed between an inner diameter of the connector body and an outer diameter of the center pin, such that a pressure barrier is formed between an outer diameter of the pressure sleeve and an inner diameter of the connector body and a pressure barrier is formed between an inner diameter of the pressure sleeve and an outer diameter of the center pin.

Thermal mitigation features may be included in a Universal Serial Bus (USB) cable assembly or in the USB receptacle portion of a device. In one aspect, one or both ends of a USB cable jacket may have greater thermal conductivity than the portion between them. The portion having the greater thermal conductivity may dissipate excess heat from the cable into the environment. In another aspect, a USB cable connector or the USB receptacle portion of a device may include a thermoelectric heat pump. The thermoelectric heat pump may move excess heat from the cable assembly or receptacle into a portion of the cable assembly or device that dissipates the heat into the environment.

Thermal mitigation features may be included in a Universal Serial Bus (USB) cable assembly or in the USB receptacle portion of a device. In one aspect, one or both ends of a USB cable jacket may have greater thermal conductivity than the portion between them. The portion having the greater thermal conductivity may dissipate excess heat from the cable into the environment. In another aspect, a USB cable connector or the USB receptacle portion of a device may include a thermoelectric heat pump. The thermoelectric heat pump may move excess heat from the cable assembly or receptacle into a portion of the cable assembly or device that dissipates the heat into the environment.

An airtight connection assembly comprising conducting members constituting passages of a signal or fluid, a sealing part including a first sealing member with a shape which can cover a first hole formed in a partition of an airtight container and a sealing material, and a connecting part comprising a connector connected to either or both of ends of the conducting members, second holes formed in said first sealing member so as to communicate the inside and outside of the airtight container with each other, the conducting members are individually inserted through the second holes, and gaps between the conducting members and inner circumferential surfaces of the second holes are filled with a sealing material. Thereby, it is made possible to deliver and receive an electric signal etc. between the inside and outside of the airtight container while maintaining airtightness of the airtight container by a simple configuration.

An electrical connector assembly includes a connector housing, a planar busbar having a rectangular cross section defining two opposed major surfaces and four minor surfaces, a cooling plate that is sized, shaped, and arranged to be in conductive thermal contact with a first major surface of the planar busbar, and an L-shaped busbar partially disposed within the connector housing having a first end connected to an electrical terminal and having a second end attached to, and in conductive thermal contact with, a second major surface of the planar busbar. The cooling plate is configured to reduce a temperature of the planar busbar and the attached L-shaped busbar. A method of assembling such an electrical connector is also presented.

An electrical connector assembly includes a connector housing, a planar busbar having a rectangular cross section defining two opposed major surfaces and four minor surfaces, a cooling plate that is sized, shaped, and arranged to be in conductive thermal contact with a first major surface of the planar busbar, and an L-shaped busbar partially disposed within the connector housing having a first end connected to an electrical terminal and having a second end attached to, and in conductive thermal contact with, a second major surface of the planar busbar. The cooling plate is configured to reduce a temperature of the planar busbar and the attached L-shaped busbar. A method of assembling such an electrical connector is also presented.

A connection assembly including a first connector comprising a post, and a second connector. A body of the second connector comprises a fastening passage. The post can penetrate into said fastening passage by moving in a fastening direction, so as to reach a fastening position. In the fastening position, the post cannot move in a disassembly direction opposite to the fastening direction. The connectors are configured in such a manner that an external action applied solely to the post allows the post to pass from the fastening position to a free position, in which the post can move in translation in the disassembly direction. In fastening position, the post is in a predetermined angular range. The connection assembly further comprises angular returning means to return the post into said predetermined angular range relative to the axis of the post, when the post is fastened to a body of the first connector.

A pluggable network interface device is provided comprising a split-shell housing having a shielded side portion that protects a side of a circuit substrate disposed in the split-shell housing. The split-shell housing comprises a first shell portion that covers a first side of the circuit substrate and a second shell portion that covers a second side of the circuit substrate that is arranged opposite the first side. The shielded side portion is inset from a width of the split-shell housing and offset a distance from an electrical interconnection end of the circuit substrate. The shielded side portion is arranged at least partially in a notch of the circuit substrate disposed at the electrical interconnection end of the circuit substrate.

A current detector includes: a printed circuit board; and a resistor for detecting an electric current of the electrochemical device, wherein a connector having a first terminal is mounted on the printed circuit board, and the resistor has a second terminal which is brought into contact with the first terminal.