Protective cover devices for associated electrical connectors include a one-piece molded polymeric body including at least one of: (i) at least one stud that is closely slidably received into a corresponding socket of the connector; (ii) a skirt that comprises a recess that receives at least part of the electrical connector therein. The protective cover device is adapted to be engaged with the associated electrical connector to inhibit contact between a surrounding corrosive atmosphere and at least one electrical contact of the associated electrical connector.

Protective cover devices for associated electrical connectors include a one-piece molded polymeric body including at least one of: (i) at least one stud that is closely slidably received into a corresponding socket of the connector; (ii) a skirt that comprises a recess that receives at least part of the electrical connector therein. The protective cover device is adapted to be engaged with the associated electrical connector to inhibit contact between a surrounding corrosive atmosphere and at least one electrical contact of the associated electrical connector.

A connector includes: a terminal metal fitting that is connected to an electric wire and is configured to be inserted into a connector insertion hole of a metal case of a counterpart device from an opening; a housing includes a connector insertion part configured to be inserted into the connector insertion hole from the opening together with the terminal metal fitting; a liquid seal member that is configured to seal a gap between the housing and a rim of the opening in the case; a shield shell that includes a cylindrical accommodation body accommodating the housing therein, an annular flange configured to be opposed to an annular surface around the rim of the opening in the case, and a fixed part configured to be fixed to the case; and an annular interposed member that is configured to be interposed between the flange and the annular surface to be sandwiched therebetween.

A connector assembly includes a connector body, a corresponding mating connector body, and a connection position assurance (CPA) device. The connector body includes a deflectable latching member and at least one outer detent feature located on an outer surface of the connector body. The corresponding mating connector body is configured to be removably connected with the connector body, wherein the deflectable latching member is configured to secure the connector body to the corresponding mating connector body. The CPA device is slidably positioned adjacent the connector body and moveable from a pre-stage position to a full-stage position, wherein the CPA device interacts with the at least one outer detent feature located on the outer surface of the connector body to deflect the connector body towards the corresponding mating connector body.

A connector assembly includes a connector body, a corresponding mating connector body, and a connection position assurance (CPA) device. The connector body includes a deflectable latching member and at least one outer detent feature located on an outer surface of the connector body. The corresponding mating connector body is configured to be removably connected with the connector body, wherein the deflectable latching member is configured to secure the connector body to the corresponding mating connector body. The CPA device is slidably positioned adjacent the connector body and moveable from a pre-stage position to a full-stage position, wherein the CPA device interacts with the at least one outer detent feature located on the outer surface of the connector body to deflect the connector body towards the corresponding mating connector body.

A hermetically-sealed edge-connect header that can withstand high temperatures, high pressures (or high vacuum levels), and high vibration environments, along with two corresponding connectors are disclosed. After brazing the edge-connect header components, the assembly is machined to form a slot with a portion of each of a plurality of electrical conductors removed in the machining process, resulting in a header with a high pin density. During the process of mating the first connector design to the edge-connect header, a plurality of wipers in the connector deflect, thereby causing the wipers to extend from the connector and contact the corresponding electrical conductors in the header. During the process of mating the second connector design to the edge-connect header, each of a plurality of wipers formed of low-mass, compliant metal wool, forms multiple contact points with a corresponding electrical conductor in the header.

A connector assembly includes a connector body, a corresponding mating connector body, and a connection position assurance (CPA) device. The connector body includes a deflectable latching member and at least one outer detent feature located on an outer surface of the connector body. The corresponding mating connector body is configured to be removably connected with the connector body, wherein the deflectable latching member is configured to secure the connector body to the corresponding mating connector body. The CPA device is slidably positioned adjacent the connector body and moveable from a pre-stage position to a full-stage position, wherein the CPA device interacts with the at least one outer detent feature located on the outer surface of the connector body to deflect the connector body towards the corresponding mating connector body.

A connector assembly includes a connector body, a corresponding mating connector body, and a connection position assurance (CPA) device. The connector body includes a deflectable latching member and at least one outer detent feature located on an outer surface of the connector body. The corresponding mating connector body is configured to be removably connected with the connector body, wherein the deflectable latching member is configured to secure the connector body to the corresponding mating connector body. The CPA device is slidably positioned adjacent the connector body and moveable from a pre-stage position to a full-stage position, wherein the CPA device interacts with the at least one outer detent feature located on the outer surface of the connector body to deflect the connector body towards the corresponding mating connector body.

A receptacle assembly includes a heat sink assembly for a receptacle cage for dissipating heat from a pluggable module plugged into the receptacle cage. The heat sink assembly includes fin plates and spacer plates arranged in a plate stack independently movable for engaging and conforming to the pluggable module. Each spacer plate includes a thermal interface at a bottom of the spacer plate engaging the pluggable module. Each fin plate includes a thermal interface at a bottom of the fin plate engaging the pluggable module. The fin plates include branched fin plates and unbranched fin plates. Each of the unbranched fin plates are planar between the bottom and the distal end thereof. Each of the branched fin plates are non-planar and include at least one bend between the bottom and the distal end thereof.

Systems, devices, and methods including one or more isolation breaks connected between one or more first portions of a first wire and one or more second portions of a second wire, wherein the one or more isolation breaks prevent moisture intrusion between the one or more first portions of the first wire and the one or more second portions of the second wire; an inner housing; an upper compressing plate; a lower compressing plate; a grommet and an outer housing sized to receive the inner housing; where the one or more isolation breaks are connected between the one or more first portions of the first wire and the one or more second portions of the second wire prior to compressing the grommet between the upper compressing plate and the lower compressing plate.