There is provided a communication connector for improving signal transmission performance, the communication connector including a cable termination component being sized and configured for selective receipt of a plurality of conductor pairs of a cable; a plurality of slots on said cable termination component, wherein each wire of each of the plurality of conductor pairs may be selectively pressed into one of the plurality of slots; a receptacle component including a plurality of electrical contacts and a plurality of offset-positioned insulation displacement contacts (IDCs), each of the plurality of offset-positioned IDCs being aligned for engaged abutment with a corresponding one of the wires of the plurality of conductor pairs when the cable termination component and the receptacle component are coupled; a printed circuit board; and wherein the offset placement of the IDCs increases the separation distance between IDCs of another receptacle component when a plurality of the receptacle components are adjacent to one another, whereby a signal transmission is improved.

There is provided a communication connector for improving signal transmission performance, the communication connector including a cable termination component being sized and configured for selective receipt of a plurality of conductor pairs of a cable; a plurality of slots on said cable termination component, wherein each wire of each of the plurality of conductor pairs may be selectively pressed into one of the plurality of slots; a receptacle component including a plurality of electrical contacts and a plurality of offset-positioned insulation displacement contacts (IDCs), each of the plurality of offset-positioned IDCs being aligned for engaged abutment with a corresponding one of the wires of the plurality of conductor pairs when the cable termination component and the receptacle component are coupled; a printed circuit board; and wherein the offset placement of the IDCs increases the separation distance between IDCs of another receptacle component when a plurality of the receptacle components are adjacent to one another, whereby a signal transmission is improved.

An electrical plug connector with a plug-connection member and a cable outlet member is provided. The cable outlet member has a cable guidance channel for guiding and a cable clamping arrangement for fixing a cable which is connected to the plug-connection member. The cable outlet member has a first and a second housing shell and also a cap nut. The second housing shell is movable between an open position which releases the first housing shell and a closed position which covers the first housing shell. The cable clamping arrangement has clamping wedges which are arranged on the inner sides of the housing shells which face each other. The cap nut in the closed position of the second housing shell is able to be screwed onto the two housing shells.

A push-in connector generally having an interior channel equipped with longitudinal protrusions that run at least part of the length of the interior channel of the connector body to define grooves through which wires of a different gauges can be inserted. When the user rotates the connector body about its longitudinal axis, the interior channel defines a second gauge through which a wire of a second gauge can pass. The connector body has one or more incisions cut into one end of the connector body and a separate cuff that fits over the feed end. The interior channel contains teeth that grip the wire(s) or cable(s) once inserted. The exterior of the connector body has flexible exterior protrusions that can be pushed down when inserting the connector through the knock-out of a housing and spring back into place to secure the connector to the housing.

A connection terminal has a connector body having a mating end and an opposite cable receiving end; a pair of contact arms extending from the mating end; and a cable receiving member having an approximate cylindrical shape with a variable diameter, and extending from the cable receiving end.

A cable holding assembly for an electronic device is provided that can include a cable holding device having a cable holding body with a first pliable member having a first pliable wing and a second pliable member having a second pliable wing that are both configured to deflect away from a center axis of a gap holding a first cable in response to a first linear force applied by the first cable. The first pliable wing of the first pliable member and second pliable wing of the second pliable member can also both be configured to deflect towards the center axis in response to a second linear force applied by the first cable disposed within the first gap to apply a compression force on the first cable when the first linear force is in an opposite direct to the second linear force.

The present application discloses a tying-free network module and a cable gland. The tying-free network module disclosed by the present application includes a female seat and a fastener part connected with the female seat. The female seat and the fastener part form an accommodating cavity. The cable clip includes a sheet-shaped base part. An arc-shaped positioning edge is provided on one side, close to the cable, of the base part. At least two clamping grooves are provided in at least one side surface of the base part. When the cable is clamped by using the cable clip, the cable clip is provided in a direction perpendicular to the cable. The overall length of the tying-free network module disclosed by the present application is smaller, and the overall length of the tying-free network module is minimized.

A power cord strain relief device is provided, designed to reduce or eliminate strain on power cables connected to RVs, marine vehicles, or similar vehicles. The device comprises a body with a first end that rests against a vehicle bumper and a second end featuring an opening for securing a power cord in a position that reduces or eliminates internal strain within the power cord. During use, a first end of the body rests against the vehicle's bumper. The second end contains an opening formed by two halves connected by a connector, through which a power cord is positioned and secured with a fastener. Additionally, the device includes a receiving area that holds the power cord head securely, utilizing fasteners such as straps or clips to prevent strain on the cord.