A terminal block configured to be mounted within an opening in a fire barrier. The terminal block includes a central body sized to be positioned in the opening. A lower mount extends outward from a first side of the central body. An upper mount extends outward from a second side of the central body. Mounting surfaces are positioned on each of the lower mount and the upper mount. Electrical conductors extend between the mounting surfaces on the lower mount and the upper mount with the electrical conductors configured to enable an electrical connection between first and second sections of power feed lines.

A self-centering ceramic washer is positioned between a feedthrough and a filter circuit board. The washer has openings through which first and second terminal pins extend. A first opening has an inner arcuate portion contacting the first terminal pin and an outer perimeter portion exposing the braze sealing the terminal pin to the insulator. A second opening has an inner arcuate portion contacting the second terminal pin and an outer perimeter portion exposing the braze sealing the terminal pin to the insulator. In an imaginary configuration with the first and second washer openings superimposed one on top of the other, the cumulative arcuate distance of the inner arcuate portions about one of the terminal pins, subtracting overlap, results in a gap between the superimposed washer openings that is less than a diameter of the first and second terminal pins so that the washer is prevented from lateral movement.

A self-centering ceramic washer is positioned between a feedthrough and a filter circuit board. The washer has openings through which first and second terminal pins extend. A first opening has an inner arcuate portion contacting the first terminal pin and an outer perimeter portion exposing the braze sealing the terminal pin to the insulator. A second opening has an inner arcuate portion contacting the second terminal pin and an outer perimeter portion exposing the braze sealing the terminal pin to the insulator. In an imaginary configuration with the first and second washer openings superimposed one on top of the other, the cumulative arcuate distance of the inner arcuate portions about one of the terminal pins, subtracting overlap, results in a gap between the superimposed washer openings that is less than a diameter of the first and second terminal pins so that the washer is prevented from lateral movement.

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 connector (7) includes: a first connector part (10) having a first module side connection part connected to one end of an OSFP module in the front (F), having a first substrate side connection part connected to a substrate, and installed on the substrate; a second connector part (20) provided at a position such that the first module side connection part is interposed between the substrate and the second connector part (20), having a second module side connection part connected to one end of an OSFP module at the front (F), having a second substrate side connection part connected to the substrate, and stacked on the first connector part (10); and an intermediate part (30) provided between the first connector part (10) and the second connector part (20), and a cooling flow path in which air flows from the front (F) side toward the rear (R) side of the connector (7) is formed in the intermediate part (30).

A connector (7) includes: a first connector part (10) having a first module side connection part connected to one end of an OSFP module in the front (F), having a first substrate side connection part connected to a substrate, and installed on the substrate; a second connector part (20) provided at a position such that the first module side connection part is interposed between the substrate and the second connector part (20), having a second module side connection part connected to one end of an OSFP module at the front (F), having a second substrate side connection part connected to the substrate, and stacked on the first connector part (10); and an intermediate part (30) provided between the first connector part (10) and the second connector part (20), and a cooling flow path in which air flows from the front (F) side toward the rear (R) side of the connector (7) is formed in the intermediate part (30).

A wet connect, including a first component having a first signal conductor, a first connector operably connected to the first signal conductor, a second component having a second signal conductor, and a mating connector operably connected to the second signal conductor. A method for wet connecting components including running a second component into connection with a first component without orienting the second component to the first component. A wellbore system, including a borehole in a subsurface formation, a string in the borehole, a wet connect, disposed within or as a part of the string.

A wet connect, including a first component having a first signal conductor, a first connector operably connected to the first signal conductor, a second component having a second signal conductor, and a mating connector operably connected to the second signal conductor. A method for wet connecting components including running a second component into connection with a first component without orienting the second component to the first component. A wellbore system, including a borehole in a subsurface formation, a string in the borehole, a wet connect, disposed within or as a part of the string.

A connector is provided with a first housing, a second housing to be stacked on and coupled to the first housing and a mating housing to be connected to the first housing and the second housing. The mating housing includes a projecting portion to be arranged between first and second facing surfaces of the first housing and the second housing and capable of contacting the respective facing surfaces of the first housing and the second housing.