Disclosed are network cable connectors with components such as switches, displays, and printed circuit with controllers. The disclosed network cable connector may be connected to a power over Ethernet (POE) power sourcing equipment (PSE). The printed circuit of the cable connector may request power for the display from the PSE. The switch of the cable connector may be operated such that at least one component of the printed circuit is disconnected from the PSE when an external powered device (PD) is connected to the cable connector. Disconnecting components of the printed circuit from the PSE may reduce the interference to the power negotiation between the PSE and external PD.

A printed circuit board (PCB) includes a substrate defining a major plane. A first side of the major plane is configured for mounting of functional circuit elements. A cable connector is mounted on a second side of the major plane of the substrate, opposite the first side, for coupling to a shielded radiofrequency (RF) communications cable. At least one component grounding layer is parallel to the major plane and configured for coupling to the functional elements. At least one cable grounding layer is parallel to the major plane and is separated from the at least one component grounding layer. Each cable grounding layer in the at least one cable grounding layer is coextensive with the substrate and is configured for coupling, through the connector, to shielding of the shielded RF communications cable, without coupling to any other component. Nodes of an RF communications system may be mounted on such PCBs.

A device includes a processing device, memory, wireless circuitry, a touch-sensitive display. Programs are stored in the memory, when executed by the processing device, cause: displaying a user interface on the touch-sensitive display that includes a set of menu items associated with adaptive devices; detecting a first contact on the touch-sensitive display associated with a first menu item for selection of control of a first adaptive device; in response to detecting the first contact, displaying a set of control indicia associated with control functionality of the first adaptive device; detecting a second contact on the touch-sensitive display associated with a first control indicia of the set of control indicia; generating an actuation command associated with the first control indicia that corresponds to a specific action of the adaptive device; and transmitting, using the wireless circuitry, the actuation command to a wireless adapter device to which is coupled the adaptive device.

A cable connector includes a male connector and a female connector. The male connector has a plurality of contacts disposed perimetrically or circumferentially coaxially along major axes of at least one peripheral surface or perimeter of the male connector. The female connector has a plurality of contacts disposed complementarily coaXially along major axes of at least one interior peripheral surface or perimeter of the female connector. Insertion of the male connector into the female connector allows for greater connectivity between cables because more contacts are accommodated coaXially along the connector length than the transverse dimension, as currently seen in the art. Greater bandwidth is therefore accommodated over a greater number of channels.

An electrical contact suitable for use within data connectivity applications in which both power and data are conveyed over the same pair of conductors is configured with a staggered profile geometry that isolates the location of high-current disconnects while maintaining a surface that remains free of electrical arcing and erosion. The electrical contact is designed with two points of contact, and the staggered geometry ensures that only one of the two points of contact is exposed to electrical arcing when the connector is disconnected while under power, thereby protecting the other point of contact from arc-related surface damage.

An assembly configured to receive twisted pairs of conductors terminated by a miniplug and a pair of conductor contacts. The assembly comprises a housing comprising a first surface comprising a socket disposed therein; wherein the socket is configured to accept a plurality of miniplugs, illustratively in a 2×2 configuration, wherein pairs of socket contacts are exposed along at least one side wall of the socket and wherein the socket contacts are configured to be aligned with the conductor contacts such that each of the conductor contacts is in contact with a respective one of the socket contacts. A caddy is also provided which allows the miniplugs to be arranged in a 2×2 arrangement for subsequent insertion into a socket or the like.

An electronic device and an input/output connector are disclosed. The device may include the input/output connector, which may include a housing including an opening, a cover that covers at least a portion of the opening, the cover connected to the housing by a hinge, and forming an external appearance of the electronic device together with the housing, an elastic body connected to the housing and the cover, and an insertion hole formed by the housing and the cover, into which a cable terminal is insertable for connection with an external device, wherein a size of the insertion hole is changeable according to the rotation of the cover.

A hermaphroditic connector for use in single or multiple twisted-pair connectivity applications is constructed using a small number of parts having a simple but durable assembly. The connector housing comprises an elongated form factor that, when mated with a similar hermaphroditic connector, forms a rigid overlapping shield around the electrical contacts of the two connectors. While unmated, the conductive tines within the connector have a default curved profile that facilitates reliable connectivity with tines of a mating connector. When the connector is mated with a similar connector, the tines are deformed to a flatter profile by support plates within the connectors, yielding a shape more conducive to high-frequency signal applications. The shape of the tines also yields multiple in-line redundant contact points to ensure reliable connectivity without adding to the width of the connector.

Technology allowing for easy access to connectors in a patch panel. In one of the configurations a patch panel includes at least one patch panel subassembly, each patch panel subassembly including at least one mounting plate and a plurality of port assemblies, the at least one mounting plate being configured to accommodate the port assemblies so that each port assembly can individually translate along a direction parallel to a surface of the mounting plate and can rotate about an axis perpendicular to the surface of the mounting plate.

A pluggable module comprising a housing having a first end and second end, an edge connector disposed at the first end, an F-type coaxial connector at the second end and a release lever including a stamped body that is symmetrical about a centerline bisecting the length of the body.