A coaxial cable-connector assembly includes: (a) a coaxial cable comprising an inner conductor, a dielectric layer circumferentially overlying the inner conductor, an outer conductor circumferentially overlying the inner conductor, and a polymeric jacket circumferentially overlying the outer conductor; (b) a connector adapter, comprising an inner contact that is electrically connected to the inner conductor, an outer sleeve that is in electrical contact with the outer conductor, and a dielectric spacer interposed between the inner contact and the outer sleeve, and (c) a coaxial connector having an outer connector body, the outer connector body having a mating end configured to mate with a mating connector and an adapter ring, the adapter ring configured to engage and electrically connect to the outer sleeve.

There is provided a connector comprising an electrically conductive member (48) fixed in position within a rotatable insulating body (42), the electrically conductive member (48) comprising at least one connection channel (72, 74), a biasing member (46) such as a torsion spring connected to the insulating body (42), and an insertion axis (94), wherein the rotatable insulating body (42) is formed with at least one tapered guide channel (44) in which is located an insertion axis and the insulating body (42) is rotatable from a first biased position in which the at least one tapered guide channel (44) is offset from the connection channel (72, 74) to a second biased position where the at least one connection channel (72, 74) is aligned with the insertion axis (94). The electrically conductive member (48) is rotatable against a biasing force of the biasing member (46) upon insertion of a conductor pin.

There is provided a connector comprising an electrically conductive member (48) fixed in position within a rotatable insulating body (42), the electrically conductive member (48) comprising at least one connection channel (72, 74), a biasing member (46) such as a torsion spring connected to the insulating body (42), and an insertion axis (94), wherein the rotatable insulating body (42) is formed with at least one tapered guide channel (44) in which is located an insertion axis and the insulating body (42) is rotatable from a first biased position in which the at least one tapered guide channel (44) is offset from the connection channel (72, 74) to a second biased position where the at least one connection channel (72, 74) is aligned with the insertion axis (94). The electrically conductive member (48) is rotatable against a biasing force of the biasing member (46) upon insertion of a conductor pin.

An electrical plug connector for a cable has a compression sleeve and a stop element that is axially adjacent to and connected to the compression sleeve. The compression sleeve has an inner lateral surface thread that is screwable to an outer lateral surface thread of an outer conductor of the cable. The outer conductor is clampable between the compression sleeve and an axial end region of the stop element, and in an assembled state, a longitudinal axis of the compression sleeve, is tilted relative to a longitudinal axis of the stop element; or b) a normal vector of a plane spanned by an edge between an end face and an inner lateral surface of the stop element is rotated by orientation angle (φ.sub.A) relative to the longitudinal axis of the compression sleeve; or c) the edge has a helical course in a longitudinal axis direction of the plug connector.

A low passive intermodulation (PIM) coaxial-to-printed circuit board (PCB) interface and method of constructing the same. According to one aspect, a coaxial-to-PCB interface couples signals between an electrical conductor trace in the PCB and an inner conductor of a coaxial structure having an insulator surrounded by an outer conductor. A metallic cylinder is inserted over the outer conductor of the coaxial structure and positioning the coaxial structure with respect to the PCB so that the outer conductor and insulator of the coaxial structure lie below a lower surface of the PCB. The inner conductor of the coaxial structure is inserted into a via extending from the lower surface of the PCB to an upper surface of the PCB. Solder is deposited in the via to provide an electrically conductive path between the electrical conductor trace of the PCB and the inner conductor of the coaxial structure.

A connector assembly includes housing for storing components of the connector assembly. The connector assembly further includes a cable including a cable center conductor, wherein the cable center conductor is configured as a signal conductor. The connector assembly also includes a first dielectric and an alignment dielectric. Each of the first dielectric and the alignment dielectric includes a path to guide the cable center conductor through an angle to a printed circuit board as the cable is axially inserted into the housing.

To prevent both increase in impedance and a short circuit, a connector cable is configured such that a connector and a shielded cable are connected via a relay substrate. The shielded cable includes at least an inner conductor, a dielectric covering the inner conductor, and a shield member covering the dielectric. The inner conductor is connected to a contact of the connector at a part where the shield member and the dielectric are removed to expose the inner conductor. At least directly under a part where the shield member is removed to expose the dielectric, a ground (GND) conductor layer on a front surface of the relay substrate is arranged. The GND conductor layer on the front surface of the relay substrate, which is arranged directly under the part where the shield member is removed, is covered with an insulating member.

A ganged connector assembly includes: a housing; a plurality of first coaxial connectors mounted in the housing; a plurality of first coaxial cables, each attached to a respective one of the plurality of first coaxial connectors; and a second coaxial cable electrically connected with a first one of the first coaxial connectors, the second coaxial cable configured to transmit AISG signals to the first one of the first coaxial connectors.

A ganged connector assembly includes: a housing; a plurality of first coaxial connectors mounted in the housing; a plurality of first coaxial cables, each attached to a respective one of the plurality of first coaxial connectors; and a second coaxial cable electrically connected with a first one of the first coaxial connectors, the second coaxial cable configured to transmit AISG signals to the first one of the first coaxial connectors.

A connector system includes an adapter with a first mating portion, a second mating portion and a transition portion. A continuous outer wall extends across the first mating portion, the transition portion and the second mating potion. A first terminal positioned in the adapter. At least one receptacle has a receptacle mating section and a receptacle transition section. A continuous receptacle outer conductive wall extends across the receptacle mating section and the receptacle transition section. A receptacle inner wall extends perpendicular to the receptacle outer wall. A second terminal is positioned in the at least one receptacle. A retention member is provided in the receptacle mating section. The continuous outer wall and the continuous receptacle outer wall form a grounding shield minimizing signal leakage from the first terminal and the second terminal.