A cable harness that holds multiple types of media cables into a single unit for connecting components to a device without having to access the device's input panel. The cable harness has a sleeve that keeps all the cables organized and held together. Each of the cables have two ends, a male end and a female end. One end of the harness has male ends of the cable that connect to the input panel of a device while the other end has the female ends of the cable to make switching out components possible without having to access the device's rear input panel. The cable harness has a plurality of cables including a HDMI cable, a USB cable, an Ethernet cable, and an Optical cable. The cables are slidably harnessed together allowing the sleeve to be close to one end of the cable if need be. The sleeve allows cables to move independently for easier and faster connections. The cables have a labeling so that the same cable has the same label on each end of the cable so the user knows which end of one of the cables corresponds to the correct other end of the cable.

A header for a controller for an implantable medical device. The header includes at least one bore sized and configured to receive a corresponding connector for the implantable medical device. At least one elongate thermally conducting element is disposed within the header and proximate the at least one bore, the at least one elongate thermally conducting element being configured to conduct heat away from the at least one bore and spread heat within the header when the corresponding connector is received within the at least one bore and is communication with the implantable medical device.

A header for a controller for an implantable medical device. The header includes at least one bore sized and configured to receive a corresponding connector for the implantable medical device. At least one elongate thermally conducting element is disposed within the header and proximate the at least one bore, the at least one elongate thermally conducting element being configured to conduct heat away from the at least one bore and spread heat within the header when the corresponding connector is received within the at least one bore and is communication with the implantable medical device.

The present invention discloses a smart electrical socket device enabling the detection of the temperature of the room in which it is installed; the device comprising a housing (1) essentially of a rectangular parallelepiped shape, where the front surface presents a female connection (6) enabling an external element (13) to be plugged in, and the rear surface includes pins (11) for the connection thereof to a power source; further incorporating a temperature module comprising a temperature sensor (2) disposed at the lower part of the internal metallic structure (10) and cut-outs (2.1) in the printed circuit board (PCB) (20) to isolate the heat produced by said board; a power consumption sensor circuit (4) disposed facing the printed circuit board (PCB) (20) and opposite the temperature sensor (2); a load actuator comprised of at least one relay; a power source (14); and a wireless communication module (5) disposed on the internal structure (PCB) (10).

The present invention discloses a smart electrical socket device enabling the detection of the temperature of the room in which it is installed; the device comprising a housing (1) essentially of a rectangular parallelepiped shape, where the front surface presents a female connection (6) enabling an external element (13) to be plugged in, and the rear surface includes pins (11) for the connection thereof to a power source; further incorporating a temperature module comprising a temperature sensor (2) disposed at the lower part of the internal metallic structure (10) and cut-outs (2.1) in the printed circuit board (PCB) (20) to isolate the heat produced by said board; a power consumption sensor circuit (4) disposed facing the printed circuit board (PCB) (20) and opposite the temperature sensor (2); a load actuator comprised of at least one relay; a power source (14); and a wireless communication module (5) disposed on the internal structure (PCB) (10).

A backplane connector includes a housing and a number of terminal modules. Each terminal module includes a number of conductive terminals, a metal shield surrounding member, a first metal shield and a second metal shield. The conductive terminal includes a mating portion and a tail portion. The conductive terminals include a first signal terminal and a second signal terminal. The metal shield surrounding member surrounds the mating portions of the first signal terminal and the second signal terminal. The first metal shield and the second metal shield are in contact with the metal shield surrounding member. As a result, the shielding area is increased and the shielding effect is improved.

A connector module, which includes a male connector having a first housing and first terminals accommodated in the first housing; a female connector having a second housing configured such that the first housing is fitted therein and second terminals accommodated in the second housing and a connector connection detecting unit having a pressure sensor configured to contact at least one side of the first housing when the first housing is entirely fitted into the second housing, the connector connection detecting unit being configured to transmit a connection state of the male connector and the female connector to an external device.

An electric wire cover includes halved covers in a pair mounted to a connector having at least one electric wire drawn rearward, and an electric wire protector. The respective halved covers have electric wire insertion portions through which the drawn electric wire is inserted. The electric wire protector is elastically recoilable in an insertion direction of the electric wire and retained in the electric wire insertion portions of the halved covers. The respective halved covers include regulators in the electric wire insertion portions. The regulators are configured to come in partial contact with an opening edge of the electric wire protector at which the electric wire is exposed, and regulate a position of the electric wire protector.

Systems and apparatuses are provided in which outlets are coupled to a power distribution unit (PDU) or PDU module in various configurations. The outlets may be coupled to a recessed surface within a PDU housing. The outlets and recessed surface may be formed as part of a single mold. The outlets may be coupled to a printed circuit board that is at least partially disposed within the PDU housing. The outlets may extend away from the recessed surface or printed circuit board towards or beyond a front face of the PDU housing.

Systems and apparatuses are provided in which outlets are coupled to a power distribution unit (PDU) or PDU module in various configurations. The outlets may be coupled to a recessed surface within a PDU housing. The outlets and recessed surface may be formed as part of a single mold. The outlets may be coupled to a printed circuit board that is at least partially disposed within the PDU housing. The outlets may extend away from the recessed surface or printed circuit board towards or beyond a front face of the PDU housing.