Disclosed is a RF connector that has a main body, a clamp, and a cap. The connector has an internal torque limiting mechanism that enables the connector to be installed in the field such that the connector is correctly positioned at the axial stop point of the RF cable during insertion. This is enabled by an internal preloaded cap/seal interface that requires a predetermined breakaway torque to cause the cap to rotate relative to the clamp. The breakaway torque is less than a torque that would be required to over-install the connector.

A connector 10 includes a terminal fitting 11, a housing 12, a seal member 13 and a mounting member 14. The terminal fitting 11 is connected to a wire 80. The seal member 13 includes a seal hole 52 through which the wire 80 is passed in a liquid-tight manner. The mounting member 14 holds the seal member 13 by sandwiching the seal member 13 between the housing 12 and the mounting member 14. The mounting member 14 is in contact with the seal member 13 and movably mounted on the housing 12.

A system includes a housing (105) that includes one or more ports (113) through which electrical connections to one or more electronic components situated within the housing can be made from exterior of the housing. At least one enclosure bushing (204) is coupled to at least one port. The enclosure bushing includes a cylindrical service jacket receiver (207) defining a lumen (208), a flange (212) abutting a portion of the housing, and one or more lugs (216,217,302,303) extending from a portion of the cylindrical service jacket receiver. A coupling nut (205) having one or more circumferential lug receivers (702,703,704,805) applies a compression force to the frustoconical weather gasket when the one or more lugs engaging the locking notch (708) of the one or more circumferential lug receivers.

A seal housing for a cable lug comprising a cable entry extending in a longitudinal direction, and a dome extending in a transverse direction, transversely to the longitudinal direction, wherein the cable entry extends longitudinally towards the dome and terminates in the dome, the dome comprises a receptacle for the cable lug, and the dome comprises a transversely extending through channel which extends transversely, on both sides of the receptacle into a bottom region and a cover region, characterized in that the receptacle comprises latching means for mechanically receiving the cable lug.

A connection device includes a first braided conductor having a tubular shape, and a second braided conductor having a tubular shape. The connection device also includes a tubular member having a first opening end and a second opening end, and the tubular member having conductivity. A first annular member fixed to the first opening end in a state that the first braided conductor is sandwiched coaxially between the first annular member and an outer peripheral surface of the first opening end. A second annular member fixed to the second opening end in a state that the second braided conductor is sandwiched coaxially between the second annular member and an outer peripheral surface of the second opening end. The first braided conductor and the second braided conductor are conductively connected to each other through the tubular member.

The present disclosure relates to the technical field of string light sockets, and discloses an assembled type waterproof male and female plug for string light connection. The assembled type waterproof male and female plug includes a first electrical wire and a second electrical wire; the first electrical wire is provided with a male connector; the second electrical wire is provided with a female connector; the male connector and the female connector can be plugged to each other; the male connector includes a first assembly part and a second assembly part; the first assembly part is provided with a first conductive terminal group; and the first conductive terminal group is provided with at least two plugging ends for connecting the female connector.

A charging inlet assembly includes a housing extending between a front and a rear having a DC section configured for mating with a DC charging connector and an AC section configured for mating with an AC charging connector. The charging inlet assembly includes an AC charging module coupled to the rear of the housing at the AC section having an AC terminal holder holding AC terminals. The AC charging module is removable from the housing wherein the AC terminals are removed from the housing with the AC terminal holder. A DC charging module is coupled to the rear of the housing at the DC section having a DC terminal holder holding DC terminals. The DC charging module is removable from the housing wherein the DC terminals are removed from the housing with the DC terminal holder.

A three-dimensional (3D) printed electrical connector includes an insert component, at least a first sealing member, and a shell. The insert component includes a body adapted for 3D printing. The body has first and second ends and includes a cavity penetrating the body along a longitudinal axis of the body. The first sealing member is associated with the insert component and is adapted for 3D printing. The shell at least partially encloses the insert component.

An angled connector includes a connector housing, a terminal support held by the connector housing, and a first terminal held in the terminal support. The connector housing has a first terminal passage and a second terminal passage extending at an angle to the first terminal passage. The first terminal passage and the second terminal passage intersect one another in an intersection region. The terminal support is slidable relative to the connector housing along the first terminal passage from a first position to a second position. The first terminal at least partially extends into the first terminal passage. The first terminal is closer to the second terminal passage in the second position than in the first position, and the first terminal is at least partially arranged in the intersection region in the second position.

The invention relates to a sealed cable connector, including electric cables; an electrically insulating housing; electrical terminals, each of the electrical terminals having an end portion that is electrically connected to an end portion of a corresponding electric cable; the housing having a frame forming a cavity that extends in a z-direction, wherein connected end portions of the electric cables and the electrical terminals are provided within in the cavity of the frame; wherein the electrical terminals have a planar shape in the cavity and are oriented in the x-direction and the z-direction, in that the housing is molded onto the connected electric cables and the electrical terminals, and in that an electrically isolating material is injected into the cavity such that it seals the connected end portions of the electric cables and the electrical terminals. A manufacturing method and use of the sealed cable connector is also provided.