An arc prevention system including a jack having a receptacle, a modular connector sized to be positioned in the receptacle of the jack, the modular connector including a plurality of contacts, with at least two of the contacts creating an energized electrical path with an external power source in electrical communication with the external power source, a latch extending from a top surface of the modular connector, a switching unit positioned on the latch, a plug unit positioned between the latch and the jack that prevents the modular connector from moving out of the receptacle, a control circuit in electrical communication with switch and the at least two energized contacts, where the electrical path between the control circuit and the switching unit is energized when the plug engages the switching unit on the latch, and the control circuit adjusts the energized electrical path to a predetermined electrical level.

One variation of a portable radio system includes: a portable radio configured to transmit and receive audio communication, including a connector receptacle arranged on a rear face of the portable radio and a channel extending from the connector receptacle; a cable, configured to couple the portable radio to a secondary device, including a straight section configured to seat within the channel and defining a length greater than a length of the channel; a connector, coupled to the straight section of the cable, configured to seat within the connector receptacle to couple the cable to the portable radio in an upward and downward orientation; and a clip including a base section configured to transiently couple to the body over the connector and a clamp section configured to pivot relative the base section and to attach the portable radio to a user.

An ethernet bridge mounting arrangement includes a housing including a cover portion and a back portion and a wall mount. The housing is configured to be coupled with the wall mount, and the housing is rotatable relative to the wall mount about an axis that extends in a direction perpendicular to a rear surface of the housing between a first rotational orientation, where latching members extending from the housing can be received by and removed from latch openings in the wall mount, and a second rotational orientation, where the housing is prevented from being pulled away from the wall plate.

A magnetic adapter for a cable connector includes a main body having an opening, a compression surface exposed within the opening and configured to compress a biasing retention clip of the cable connector, at least one locking surface configured to secure the biasing retention clip in a second non-locking position; and at least one magnet adjacent the opening. When the biasing retention clip is positioned within the opening, the compression surface causes the biasing retention clip to move from a first locking position where the retention clip is in a fully biased position to the second non-locking position where the retention clip is compressed.

A connector for a networking cable assembly includes a substrate, a first set of contacts on a first surface of the substrate that electrically connect to leads of a first cable, and a second set of contacts on the first surface of the substrate that electrically connect to leads of a second cable. The first set of contacts are spaced apart from the second set of contacts in a first direction by an amount that enables the second cable to be stacked on the first cable and passed over the first set of contacts to electrically connect to the leads of the second cable.

A single pair Ethernet connector includes first and second housings, first and second electrical contacts, and a shield to encase the connected first and second housings. The first and second housings each include a first mating portion and a conjoined second mating portion, the first mating portion having a female interface on a first side and the second mating portion extending in a direction opposite the first side. The first and second electrical contacts each include a base having opposing first and second ends, a first portion extending from the first end, and a second portion extending from the second end. The female interface on the first side of the first housing receives the first portion of each of the first and second electrical contacts and the female interface on the first side of the second housing receives the second portion of each of the first and second electrical contacts.

A cartridge for an aerosol provision device includes a chamber for containing a liquid from which a flow of aerosol for inhalation by a user is generated. The cartridge includes a first connector arrangement for releasably connecting the cartridge to a body portion of the device, and a second connector arrangement for releasably connecting to a container for a material. In use, aerosol flows through the material in the container before being inhaled by the user. The first connector arrangement is configurable in a locked configuration and in an un-locked configuration, and the first connector arrangement must be configured in the un-locked configuration for the cartridge to be removeable from the body portion. The first connector arrangement is configurable from the locked configuration to the un-locked configuration while the cartridge remains stationary with respect to the body portion.

A communications connector has a shielded jack body and a wire cap. The shielded jack body has a single pair of plug interface contacts having a first thickness and a single pair of insulation displacement having a second smaller thickness. The plug interface contacts are configured to electrically connect to the insulation displacement contacts. The wire cap is configured to terminate a pair of conductors to the pair of insulation displacement contacts by being secured to the sheilded jack body in a direction perpendicular to a direction of an insertion of an associated connector.

Each of the opposite ends of a patch cord carries a connector (20), wherein the identifier device (ID) has a body (30) in a “U” shape, having a basic leg (31) to be seated against an upper face (21) of the connector (20) and provided with an outwardly facing housing (33) and with at least one projection (34) facing inwardly of the body (30) and to be fitted inside of a crimping cavity (25) of the connector (20), the body (30) further having two side legs (32) than can be seated against respective opposite side faces (22) of the connector (20) and incorporating an inner end tooth (35) to be seated against the lower face (23) of the connector (20); an identifier tag (40) positioned on the housing (33); and a cover (50) closing the housing (33) and retaining the identifier tag (40) within the latter.

An insert molded connector includes a plurality of wires arranged in parallel, a coating insulating layer, and a tongue. The plurality of wires are configured to transmit electrical signals. The coating insulating layer covers main portions of the wires to expose the contact portions of the wires. The tongue is insert molded to cover the contact portion and a portion of the coating insulating layer close to the contact portion to expose a contact surface of the contact portion.