The present disclosure is directed to an internal conductor configured as a movable element, thereby providing a connector for preventing the occurrence of the breakdown or damage of a pin of a male connector.

The present invention provides target devices such as filter units with at least one receiving channel with a stop surface that is electrically conductive and at least one cable with a connector assembly on a first end portion. The connector assembly includes a first member with an open channel. The first member is coupled to the end portion of the outer conductor with the free end of the inner conductor and the end portion of the dielectric extending through the open channel to reside forward of the first member. The first member resides in a respective one of the at least one receiving channel against the stop surface. The connector assembly also includes second member with an open channel The second member is slidably coupled to the first end portion of the at least one cable and presses the first member against the stop surface.

A coaxial cable connector assembly comprising a rear body comprising an outer body member and an inner body member, wherein the rear body is positionable in a disengaged position and an engaged position, and a coupler rotatably engaged with and positioned forward of the rear body, wherein the coupler defines an inner channel extending through the coupler between a front portion of the coupler and a rear portion of the coupler positioned opposite the front portion, a thread at the front portion of the coupler, a nominal portion defining a nominal inner span along the inner channel, and an outer conductor engagement portion that tapers inwardly from the nominal portion that extends forwardly along the inner channel to the front portion of the coupler, wherein the outer conductor engagement portion is structurally configured to contact an outer conductor of the coaxial cable.

An insert for a clamping device for clamping an armour layer of a cable in a cable gland is disclosed. The insert comprises a body (54) adapted to be received in a cable gland and defining an aperture (60) for receiving an inner part of a cable. A clamping portion (62) is adapted to engage an armour layer of the cable to clamp the armour layer between the clamping portion and a clamping member of the clamping device when the clamping member is arranged outwardly of the clamping portion. At least part of the clamping portion is displaceable inwards as a result of engagement of the clamping portion with the armour layer clamped between the clamping portion and the clamping member.

A coaxial connector including a continuity element extending between a nut surface and a body base.

A connector is provided for attachment to a coaxial cable. The connector includes, in one embodiment, a connector body and a locking sleeve. The locking sleeve is configured to be moved between an attached and a detached state. In each such state, the locking sleeve is configured to receive the end of the cable. In one position, the locking sleeve is configured to lock the end of the cable to the connector body.

A coaxial cable-connector assembly includes a coaxial cable, a coaxial connector, and a rear body. The coaxial cable includes: an inner conductor; a dielectric layer circumferentially surrounding the inner conductor; an outer conductor circumferentially surrounding the dielectric layer, the outer conductor having an inner surface and an outer surface; and a jacket circumferentially surrounding the outer conductor. The coaxial connector includes: an inner contact electrically connected with the inner conductor; an outer connector body spaced apart from and circumferentially surrounding the inner contact, the outer connector body including a first securing feature; and a dielectric spacer interposed between the inner contact and the outer body. The rear body has a main section and a front collet with forwardly-extending fingers, the fingers engaging the outer surface of the outer conductor of the cable, the fingers including a second securing feature, wherein the second securing feature engages the first securing feature to maintain the outer connector body and the rear body in position on the cable.

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.

Methods and systems for assembling customizable solderless cables for direct current (DC) transmission of electricity to an electronic device. The systems and methods utilize shielded co-axial cable defining first and second opposed ends which may be cut to a desired length as selected by the user. Connectors, which may have a conventional 2.1 mm×5.5 mm DC plug design, include a barrel portion defining a threaded axial passageway. In use, the threaded passageway of the plug is twisted upon a respective end of the cable such that the end of the cable becomes threadedly seated thereinto and in electrical contact with the plug to form two dedicated electrical connections. A respective other plug is mounted on the other respective end of the cable in the same manner to thus define the customizable cable. A single length of cable or a plurality of wire segments and plugs may be sold as a pre-packaged unit for use in making a plurality of customizable DC cables.

A connector for a coaxial cable is configured to be mounted to a first threaded surface of a connecting head of an electronic device. The connector includes: a nut configured to be mounted to the first threaded surface; an inner sleeve coaxially arranged with the nut, wherein the inner sleeve has a second threaded surface configured to be mounted to the coaxial cable; and an outer sleeve coaxially arranged with the nut and sleeved over the inner sleeve, wherein the inner sleeve has a first rear-extension portion in an inner space in the outer sleeve, wherein an annular space is between the first rear-extension portion and the outer sleeve and has an axial length smaller than a distance between the inner sleeve and a rear end of the inner space.