A power connector includes a terminal block holding terminals in terminal channels with terminating ends configured to be electrically coupled to corresponding wires at separable interfaces. The power connector includes a rear insert covering the terminating ends of the terminals having wire ports configured to receive the corresponding wires during a wire poke-in process. The power connector includes biasing members associated with the terminals each including a pusher configured to be biased against the wire to push the wire into direct physical contact with the separable interface of the corresponding terminal. The power connector includes a release mechanism includes a plurality of pusher release elements. The release mechanism is actuated to release the pushers of each of the biasing members from the corresponding wires.

According to various embodiments, a cable and termination system includes a cable, a liquidtight conduit at least partially surrounding the cable, and a termination. The cable includes a cable core comprising three insulated phase conductors, three ground conductors, and filler interspersed within the cable core to force the ground connectors into symmetrical, geometric location with a corresponding phase conductor and a second phase conductor, and a cable wrap applied over the cable core. The termination includes a first connector, a second, reverse-threaded connector including an exterior metal body and a male metal body coupled with a collet sleeve. Various embodiments of the first connector are also described.

An object of the present disclosure is to relieve tension applied to a cable. A cable connection device (2) includes a first holder (3), a second holder (4) and a support (5). The first holder (3) is configured to hold a tip part (111) of an end (110) of a first cable (11). The second holder (4) is configured to hold an intermediate part (112) of the end (110). The support (5) is configured to support the first holder (3). The second holder (4) is fixed with respect to a power feed control device body (10). The first holder (3) is supported by the second holder (4) through the support (5) to restrict at least movement of the first cable (11) in a pulling direction of the first cable (11).

An electronic device and a waterproof member of the electronic device are provided. The electronic device includes a device body, a cable, and a waterproof member. The device body includes a socket. The cable includes a plug unit and a cable body. The plug unit is disposed at one end of the cable body and is adapted to be connected to the socket. The waterproof member is sleeved over at least a portion of the plug unit and includes an elastic material.

A connector includes an insulating housing, a conductor unit having a plurality of conductors arranged in a row and an insulating holding body integrally molded with the conductors, and a sealing member that seals between the conductor unit and the housing. Each of the conductors includes a plate-shaped body and terminal parts provided at both ends of the body, respectively. The holding body includes a fitting part fitted to the housing, a plurality of covering parts each extending from the fitting part along the body and individually surrounding the body, and insulating walls each dividing two adjacent terminal parts. Each of the insulating walls has a main wall part and the main wall part extends on an extension line of a gap between two adjacent covering parts and divides two adjacent terminal parts.

A conductor connecting structure includes: first and second conductors having terminal portions; a support having recessed portions; first screw members accommodated in the recessed portions; and second screw members that co-fasten the terminal portions of the first and the second conductors by screwing to the first screw members. The recessed portions have first and second wall surfaces that face each other in an opposing direction, and restricting surfaces along the opposing direction to restrict the rotation of the first screw members. The first and second wall surfaces configure a retaining portion to retain the first screw member before being screwed, and an allowable portion located closer to the inlet of the recessed portion. The distance between the first and the second wall surfaces in the allowable portion is greater than the distance in the retaining portion.

A coaxial connector and a coaxial cable forming a cable assembly. The coaxial connector includes a cable entry side for entry of the coaxial cable and an opposite coupling side for coupling with the coaxial counter connector along the connector axis. The coaxial connector includes an inner contact element electrically connected with an inner conductor of the coaxial cable; an outer contact element electrically connected with an outer conductor of the coaxial cable; a dielectric connector element radially arranged between the inner contact element and the outer contact element; a connector housing arranged around the outer contact element; wherein the inner contact element is axially locked against the dielectric connector element and the dielectric connector element is axially locked against the connector housing such that the coaxial cable is strain relieved in an axial direction with respect to the connector housing.

A sealing mechanism is disposed inside an electrical member capable of securing waterproofness with a simple structure. The cable sealing mechanism of the electrical member includes a gasket having cable through-gasket-holes through which a cable passes, and being made of an elastic body, sockets (first socket, second socket) of an electronic component (light emitting element) that operate by supplying power via the cable, a cover that covers the electronic component, the sockets, and the gasket, and a bracket that sandwiches the electronic component, the sockets, and the gasket together with the cover. The gasket is disposed between the sockets and the bracket. By attaching the cover to the bracket, the gasket comes into close contact with an inner wall of the cover, the cable through-gasket-holes come into close contact with the covering portion of the cable, and a space between the cover and the gasket is sealed.

An RF connector having an integral weather protection system for protecting the connector from water, ice, salt, debris and other foreign damage. The connector comprises a Weather Protection (WP) assembly circumscribing a connector body, which, in turn, sealably mounts to a coaxial cable. The WP assembly comprises a housing, a compliant sealing ring and a biasing element. The WP housing sealably mounts over an end of the connector body and defines an aperture at an opposite end thereof to receive the coaxial cable and facilitate axial translation of the housing relative to the connector body. The compliant sealing ring has an inwardly facing sealing surface which defines a diameter dimension. And, the biasing element is reconfigurable from an expanded to a collapsed state in response to axial displacement of the housing relative to the connector body. Operationally, the biasing element engages the compliant ring to expand the diameter dimension of the biasing element around a portion an interface port, and closes over a sealing surface of the interface port to seal the compliant ring against the sealing surface

An electrical connector includes a housing having a first opening to receive a first wire and a second opening to receive a second wire, a first contact within a volume of the housing to electrically connect the first wire to the second wire, such that the first contact includes a first contact tine and a second contact tine, and a second contact within the volume of the housing to electrically connect the first wire to the second wire, such that the second contact includes a third contact tine and a fourth contact tine. The first contact tine is biased towards the third contact tine to receive the first wire and the second contact tine is biased towards the fourth contact tine to receive the second wire.