Provided is a connector module providing superior shielding performance with small number of components. The connector module includes a terminal module having a center conductor, a tubular insulator holder supporting the center conductor and a tubular conductive shell, and a shield case. A bottom portion of the shield case includes a protruding portion bent from an edge of an opening portion through which the terminal module extends and protruding in a cylindrical form. The terminal module is joined to the shield case with an outer circumferential face of the conductive shell and an inner circumferential face of the protruding portion being placed in face contact with each other.

An EMI filtering, coaxial power connector may be formed as an inline component or a port of a device. The connector may have dimensions to accept F-type coaxial connectors. The connector includes a conductive outer shell with a first opening and a second opening. A dielectric member is disposed within the shell. A conductive pin is supported by the dielectric member. A feed-through capacitor has a central opening and a first lead formed within the central opening. The pin is electrically connected to the first lead. A second lead of the capacitor is formed at an outer perimeter of the capacitor and is electrically connected to the shell. A metal plate is mounted within the shell. The plate is disk-shaped with a central hole. An outer perimeter of the plate is in electrical contact with the shell. The pin passes through the central hole without making electrical contact with the plate, and the plate resides between the second opening of the shell and the capacitor.

A tap includes an input configured to be connected to a line. The tap also includes a first signal conditioning circuit having a first signal conditioning effect on downstream signals, upstream signals, or both. The tap also includes a second signal conditioning circuit having a second signal conditioning effect on the downstream signals, the upstream signals, or both. The second signal condition effect is different than the first signal conditioning effect. The tap also includes one or more subscriber ports configured to be connected to a subscriber premises. The tap also includes a path-selection device connected to the input, the first signal conditioning circuit, and the second signal conditioning circuit. The path-selection device is configured to selectably route the downstream signals from the input, through the first and second signal conditioning circuits, to the one or more subscriber ports.

A connector assembly that may include a connector portion and an adapter portion that are configured to be coupled to each other. The connector and adapter portions may include first and second conductor portions that are configured to be electrically connected to each other. The first and second conductor portions each may include perimeter end portions that are configured to contact each other when the connector portion and the adapter portion are coupled to each other. One of either the first conductor portion or the second conductor portions may include a perimeter end portion and a radially inward extending end portion that may be configured to extend radially inward from the perimeter end portion of the one conductor and may be axially spaced apart in an axial direction from an inward extremity end portion of the other conductor when the connector portion and the adapter portion are coupled to each other. The perimeter end portions of the first and second conductor portions may be configured to maintain electrical contact between the first and second conductor portions so as to improve signal propagation reliability or continuity between the connector and the adapter during operation of the connector assembly.

A cable termination that enables the attachment of SMA connectors to controlled-impedance cables with a conductive foil wrap shield; for the separate ferrule embodiment, the sheath is stripped back on the cable, exposing the foil shield surrounding the dielectric; a ferrule is slid or clamped over the foil shield and bonded; the face of the ferrule is dressed so that the foil shield and dielectric are flush with the ferrule face and the signal conductor protrudes from the face this cable subassembly is installed in the boss of a housing that prevents movement of the ferrules relative to each other and so that each ferrule face is aligned with an opening in the boss through which an SMA connector barrel is attached to the ferrule a cover secures the cable subassembly in the housing.

The present disclosure is generally directed to a connector assembly that includes an increased outer diameter of the connector member relative to the equivalent G-type connector and an increased inner diameter of the receptable member relative to the equivalent G-type receptacle (also referred to as a seizure nut) to achieve higher current carrying capacity and target frequency rates of up to 3.0 Ghz, for example. In one preferred example, this results in a connector assembly consistent with the present disclosure having a connector member with an outer diameter of at least 10.70 mm, and more preferably 10.76±0.01 mm, rather than the 9.4 mm diameter of existing G-type connectors. Despite this increased diameter, a seizure assembly consistent with the present disclosure can achieve a functional impedance of 75 ohms to maintain nominal signal quality.

A connector device is provided with a first connector to be mounted on a first circuit board and a second connector to be mounted on a second circuit board. The first connector includes a plurality of first terminal unit each formed such that a first inner conductor is surrounded by a first outer conductor. The second connector includes a plurality of second terminal units facing the plurality of first terminal units and a plurality of movable terminal units. The second terminal unit is formed such that a second inner conductor is surrounded by a second outer conductor. The movable terminal unit is swingable with the second terminal unit as a fulcrum. A tip part of the movable terminal unit is connectable to the first terminal unit. The plurality of movable terminal units are coupled to swing integrally by an alignment member.

It is aimed to improve workability at the time of assembling. A connector device is provided with a first connector including a first terminal unit and to be mounted on a first circuit board, a second connector including a second terminal unit and to be mounted on a second circuit board, and an adaptor including a pair of connecting end parts. The pair of connecting end parts are connected to the first terminal unit and the second terminal unit with the first terminal unit and the second terminal unit facing each other, and symmetrical with respect to a facing direction of the first terminal unit and the second terminal unit.

The present invention improves workability during assembly. A connector device (A) comprises: a pair of connectors (10, 30) that each have a terminal part (16, 43), and that are individually mounted on a pair of opposing circuit substrates (B, C); and an adapter (50) that has a pair of connecting ends (50P, 50T) which are capable of pivotably connecting to the terminal part (16, 43). The connecting ends (50P, 50T) have a hooking part (83) formed therein, protruding in a radial direction from the connecting ends (50P, 50T). The terminal part (43) has formed therein a receiving part (78) that holds the adapter (50) to the connector (30) as being engaged by the hooking part (83).

A safety adapter assembly includes a first electrical connector, a second electrical connector, a connector body, and a safety sleeve. The connector body is structured to couple the first electrical connector to the second electrical connector. The safety sleeve is substantially surrounding the connector body and configured to move relative to the connector body to selectively allow user access to the first electrical connector while substantially blocking user access to the second electrical connector, or to allow user access to the second electrical connector while substantially blocking user access to the first electrical connector.