A network sharing system includes an outdoor wireless transceiver device, an indoor network sharing device, and a high-speed Ethernet transmission cable. The outdoor wireless transceiver device includes a high-frequency network transceiver module and a first Ethernet port and the high-frequency network transceiver module is connected to the first Ethernet port and is configured to receive a high-frequency network signal. The indoor network sharing device includes a processing module and a second Ethernet port. The high-speed Ethernet transmission cable has a transmission rate above 1 giga bits per second (Gbps), two ends of the high-speed Ethernet transmission cable are respectively connected to a first RJ45 connector and a second RJ45 connector, the high-speed Ethernet transmission cable is provided with a flat cable segment, the first RJ45 connector is connected to the first Ethernet port, and the second RJ45 connector is connected to the second Ethernet port.

The cable assembly may include a first wire assembly. The first wire assembly may be connected to a first connector and a second connector. The first connector may include a shell and the shell may include an extension. The extension may extend away from the rear of the connector. In one embodiment, the extension may be integral with the shell. The extension may include one or more openings. The first wire assembly is bent in a controlled manner at first bend. The first opening in the extension maintains the first wire assembly in the bent position to maintain control of the radius in first bend. The radius is controlled to allow the first wire assembly to fit in a small space.

Connector for automotive applications, comprising two elongated signal contacts extending generally parallel to one another, each signal contact having a first connection portion for connecting the connector to a mating connector and a second connection portion for connecting the signal contacts to respective wires of a cable, wherein a distance between center axes of the first connection portions differs from a distance between center axes of the second connection portions.

A RF coaxial cable connector with rapid installation includes a front shell, a rear protective sleeve, a front insulator, a center conductor, a rear insulator, a cable crimping ring, and a cable clamping assembly. The front insulator, the center conductor and the rear insulator are arranged in a front-rear sequence in a cavity of the front shell. The cable crimping ring has a front end surface abutting on an outer ring end surface of a rear end surface of the rear insulator, and is connected with the front shell. The rear protective sleeve is connected with the front shell. The cable clamping assembly is arranged in an inner cavity of the rear protective sleeve, and has a clamping surface formed thereon for clamping on an outer ring surface of an outer conductor of a cable to be connected.

A connector assembly having an outer ground contact and a one piece over-molded housing and a method of assembly. The outer ground contact has an outer contact socket portion and an outer contact termination portion. The outer contact termination portion has openings which extend through a wall of the outer contact termination portion. The one piece over-molded housing has a nose cone portion, an inner dielectric portion and transition portions which extend between the nose cone portion and the inner dielectric portion. The nose cone portion is positioned outside of the outer contact termination portion. The inner dielectric portion positioned inside of the outer contact termination portion. The transition portions extend from the nose cone portion, through the openings, to the inner dielectric portion. The positioning of the transition portions in the openings securely mounts the outer grounding contact to the housing.

A connector assembly having an outer ground contact and a one piece over-molded housing and a method of assembly. The outer ground contact has an outer contact socket portion and an outer contact termination portion. The outer contact termination portion has openings which extend through a wall of the outer contact termination portion. The one piece over-molded housing has a nose cone portion, an inner dielectric portion and transition portions which extend between the nose cone portion and the inner dielectric portion. The nose cone portion is positioned outside of the outer contact termination portion. The inner dielectric portion positioned inside of the outer contact termination portion. The transition portions extend from the nose cone portion, through the openings, to the inner dielectric portion. The positioning of the transition portions in the openings securely mounts the outer grounding contact to the housing.

A hybrid connector for a data cable, including: a galvanic connector having a plurality of connectors configured to make a galvanic connection with a plurality of connectors in a receptacle wherein a first portion of the plurality connectors are power connections and a second portion of the plurality of connectors are data connections; a plurality of millimeter wave wireless transmitter/receivers (TRx) configured to transmit/receive data from/to the hybrid connector; and a plurality of millimeter wave antennas surrounding the galvanic connector each antenna connected to one of the plurality of millimeter wave TRx's, wherein the plurality of millimeter wave antennas are configured to transmit/receive millimeter wave data signals.

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.

Preferred embodiments of a plug connection device for connecting an electrical cable and establishing a ground connection to an external component may have at least one plug connector and fastening means electrically and mechanically connectable therewith. The plug connector may have a plug body and a housing, the plug body being connectable to a conductor of the electrical cable and receivable in an axial direction in a receptacle of the housing. The fastening means may have a snap-fit connection part, a contact element and a connection element which may be configured integrally with one another. The snap fit connection part may intrude into a groove in the housing to connect the fastening means to the housing. The contact element may plug into the housing to make electrical contact with the plug body received in the receptacle. The contact element and connection element are electrically connected to one another and the connection element may be connected to a ground cable that is connectable with the external component to establish, independently of the electrical cable, the ground connection with the external component via the plug body, contact element, connection part and the ground cable.

Preferred embodiments of a plug connection device for connecting an electrical cable and establishing a ground connection to an external component may have at least one plug connector and fastening means electrically and mechanically connectable therewith. The plug connector may have a plug body and a housing, the plug body being connectable to a conductor of the electrical cable and receivable in an axial direction in a receptacle of the housing. The fastening means may have a snap-fit connection part, a contact element and a connection element which may be configured integrally with one another. The snap fit connection part may intrude into a groove in the housing to connect the fastening means to the housing. The contact element may plug into the housing to make electrical contact with the plug body received in the receptacle. The contact element and connection element are electrically connected to one another and the connection element may be connected to a ground cable that is connectable with the external component to establish, independently of the electrical cable, the ground connection with the external component via the plug body, contact element, connection part and the ground cable.