An adiabatic coaxial cable connector includes a chassis, and a planar transmission line within the chassis and having first and second ends. The coaxial cable connector further includes a first coaxial-to-planar transition within the chassis and connected to the first end of the planar transmission line, and a second coaxial-to-planar transition within the chassis and connected to the second end of the planar transmission line.

An adiabatic coaxial cable connector includes a chassis, and a planar transmission line within the chassis and having first and second ends. The coaxial cable connector further includes a first coaxial-to-planar transition within the chassis and connected to the first end of the planar transmission line, and a second coaxial-to-planar transition within the chassis and connected to the second end of the planar transmission line.

Antenna units and system that has an antenna with at least one docking station, at least one radio unit; and at least one interconnect that includes first and second mating connectors. The first connector is configured to be electrically and mechanically coupled to the antenna and the second connector is configured to be electrically and mechanically coupled to the at least one radio unit. The interconnect has radial and axial float for blind mating of the first and second mating connectors. The first connector is mounted on the at least one docking station via a mounting body such that space for the radial float is provided between the mounting body and a housing of the first connector.

Antenna units and system that has an antenna with at least one docking station, at least one radio unit; and at least one interconnect that includes first and second mating connectors. The first connector is configured to be electrically and mechanically coupled to the antenna and the second connector is configured to be electrically and mechanically coupled to the at least one radio unit. The interconnect has radial and axial float for blind mating of the first and second mating connectors. The first connector is mounted on the at least one docking station via a mounting body such that space for the radial float is provided between the mounting body and a housing of the first connector.

An anti-noise component for a connector including a plug on an end of a coaxial cable and a jack at an opening of a metal housing of an electronic device. The anti-noise component includes a cylindrical first conductive member where the plug is inserted, and a cylindrical second conductive member where the first conductive member is inserted. The plug is held inside the first conductive member. An external thread portion is formed on the first conductive member and an internal thread portion is formed inside the second conductive member. The external thread portion mates with the internal thread portion. A flange portion is formed on the second conductive member and a joining portion is formed on the flange portion. The joining portion abuts an outer face of the metal housing. This prevents a gap from forming and leaking electromagnetic noise between the joining portion and the metal housing.

An anti-noise component for a connector including a plug on an end of a coaxial cable and a jack at an opening of a metal housing of an electronic device. The anti-noise component includes a cylindrical first conductive member where the plug is inserted, and a cylindrical second conductive member where the first conductive member is inserted. The plug is held inside the first conductive member. An external thread portion is formed on the first conductive member and an internal thread portion is formed inside the second conductive member. The external thread portion mates with the internal thread portion. A flange portion is formed on the second conductive member and a joining portion is formed on the flange portion. The joining portion abuts an outer face of the metal housing. This prevents a gap from forming and leaking electromagnetic noise between the joining portion and the metal housing.

An electrical connector that has a conductive shell supporting at least one signal contact therein and that has a front end for mating with a mating connector and a back end opposite the front end for electrically connecting to a coaxial cable. A ground connection is located inside of the conductive shell. A coupling member is rotatably coupled to the conductive shell and has an engagement feature for mechanically engaging a support panel associated with the mating connector. A sealing member is disposed on the conductive shell that is configured to provide an environmental seal between the conductive shell and the support panel when the conductive shell is mated with the mating connector.

An apparatus and a method for optically linking at least two AC and DC low voltage cascading power grids connecting at least two intelligent support boxes (ISB) each powered by two distinct AC standard power grid and separately powered by DC low voltage power grid with each grid is further linked by a cascading segments of optical cable grid, enabling two way control, operate and report electrical activity through plug in wiring devices (PWD) for supporting DC and AC plurality of connected/attached loads.

An electrical header for use in an electrical connector assembly includes a body for mounting to an object and having an opening formed therethrough for receiving an electrical terminal. The body further defines a plug on a first side thereof for engaging with a mating electrical connector of the assembly. The plug includes a pair of first opposing sidewalls extending from the body a first height and defining a locking feature for engaging with a corresponding locking feature of the mating connector, and a pair of second opposing sidewalls extending from the body at a second height, less than the first height. The first and second pairs of opposing sidewalls are adapted to mate with a first mating connector oriented in a first direction with respect to the header, and mate with a second mating connector oriented in a second direction with respect to the header and distinct from the first direction.

A multi-tap distribution box for connection to a main coaxial line carrying high frequency and alternating current power signals, the multi-tap distribution box comprising a make before break jumper that ensures that connection between first and second main line coaxial connectors in the box is not interrupted when a cover of the box is removed.