A submersible cable connector for connecting a plurality of cable ends is provided. The submersible cable connector includes a connector body and an encapsulation member covering the connector body. The connector body has one or more cable receiving apertures or cavities and one or more fastener receiving apertures in communication with the cable receiving apertures. The encapsulation member includes integrally molded tubular cable ports in communication with the cable receiving apertures, spaced apart tubular fastener ports in communication with the fastener receiving apertures, and tethered sealing cap assemblies monolithically or integrally formed into the encapsulation member, and each configured to seal respective one of the fastener ports.

A submersible cable connector for connecting a plurality of cable ends is provided. The submersible cable connector includes a connector body and an encapsulation member covering the connector body. The connector body has one or more cable receiving apertures or cavities and one or more fastener receiving apertures in communication with the cable receiving apertures. The encapsulation member includes integrally molded tubular cable ports in communication with the cable receiving apertures, spaced apart tubular fastener ports in communication with the fastener receiving apertures, and tethered sealing cap assemblies monolithically or integrally formed into the encapsulation member, and each configured to seal respective one of the fastener ports.

A heat sink assembly includes an upper heat sink element having upper plates each having sides between front and rear ends and each having inner and outer ends and a lower heat sink element having lower plates each having sides between front and rear ends and each having inner and outer ends. The lower plates include lower spacer plates and lower interface plates with the outer ends thereof thermally coupled to an electronic module. The lower interface plates include interface fins interfacing with the upper plates. The heat sink assembly includes a spring element having an upper spring member engaging the inner ends of the upper plates to bias the upper plates in a first biasing direction away from the lower plates and having a lower spring member engaging the inner ends of the lower plates to bias the lower plates in a second biasing direction away from the upper plates.

A heat sink assembly includes an upper heat sink element having upper plates each having sides between front and rear ends and each having inner and outer ends and a lower heat sink element having lower plates each having sides between front and rear ends and each having inner and outer ends. The lower plates include lower spacer plates and lower interface plates with the outer ends thereof thermally coupled to an electronic module. The lower interface plates include interface fins interfacing with the upper plates. The heat sink assembly includes a spring element having an upper spring member engaging the inner ends of the upper plates to bias the upper plates in a first biasing direction away from the lower plates and having a lower spring member engaging the inner ends of the lower plates to bias the lower plates in a second biasing direction away from the upper plates.

A shield connector includes a terminal fitting including a terminal connecting portion to be connected to a mating terminal, an insulating housing for accommodating the terminal fitting, a shield shell for covering an outer surface of the housing, an insulating heat dissipation member having a connecting portion side contact surface to be held in contact with the terminal connecting portion and a shell side contact surface to be held in contact with the shield shell by being exposed through a first opening of the housing, and a spring member for applying a resilient force to a pressure receiving surface of the terminal fitting.

A shield connector includes a terminal fitting including a terminal connecting portion to be connected to a mating terminal, an insulating housing for accommodating the terminal fitting, a shield shell for covering an outer surface of the housing, an insulating heat dissipation member having a connecting portion side contact surface to be held in contact with the terminal connecting portion and a shell side contact surface to be held in contact with the shield shell by being exposed through a first opening of the housing, and a spring member for applying a resilient force to a pressure receiving surface of the terminal fitting.

An electrical feedback barrier is configured to safely interconnect an intrinsically safe power supply to a non-intrinsically safe electrical load device in a hazardous environment. Electrical feedback from the non-intrinsically electrical load device is blocked by the electrical feedback barrier to protect the intrinsically safe power supply from adverse operating conditions. The electrical feedback barrier and the electrical load device are enclosed in an explosion-proof or flameproof enclosure for compliance with electrical equipment safety standards in the hazardous environment.

An electrical feedback barrier is configured to safely interconnect an intrinsically safe power supply to a non-intrinsically safe electrical load device in a hazardous environment. Electrical feedback from the non-intrinsically electrical load device is blocked by the electrical feedback barrier to protect the intrinsically safe power supply from adverse operating conditions. The electrical feedback barrier and the electrical load device are enclosed in an explosion-proof or flameproof enclosure for compliance with electrical equipment safety standards in the hazardous environment.

Provided are an electric appliance and a method of manufacturing the same, the electric appliance having a smaller size and a reduced overall weight by preventing a fluid from flowing into a space unrelated to a heating component in a state where the fluid fills its case. The electric appliance includes: a case including a first space and a second space communicated to each other; a first component disposed in the first space; a second component disposed in the second space; a connection portion electrically connecting the first component and the second component to each other; and a potting pattern including a resin material and formed in the first space.

Provided are an electric appliance and a method of manufacturing the same, the electric appliance having a smaller size and a reduced overall weight by preventing a fluid from flowing into a space unrelated to a heating component in a state where the fluid fills its case. The electric appliance includes: a case including a first space and a second space communicated to each other; a first component disposed in the first space; a second component disposed in the second space; a connection portion electrically connecting the first component and the second component to each other; and a potting pattern including a resin material and formed in the first space.