An LED module lighting signage system receives electricity from a power supply as well as data from a data processor source, via electrical power and data supply wiring, at least one power/data distributor, and quick connect, plug-in male and female connectors. The distributor has multiple ports which permit wiring to run from a power supply and data processor source to the distributor and from the distributor to multiple LED modules and fixtures, e.g. different channel letters, LED stringlights, etc. All connections between the power source, data processor source, electrical power/data distributor, and the modules or fixtures are accomplished easily by means of male to female quick connect plug-in connectors. In this manner, the power/data distributor can provide electrical power to LED module lighting signage and also transmit data from a data processor source to the signage in a single cohesive system.

A connector assembly for a mobile device includes a bottom plate adapted to be operably coupled with a mobile device, a connector region being operably coupled with the bottom plate, and at least one alignment member operably coupled with the back plate. The connector region is configurable in at least a first arrangement and a second arrangement. The at least one alignment member is positioned adjacent to the connector region. Further, the at least one alignment region aligns with the connector region and frictionally receives an accessory device. In the first arrangement, the connector region includes at least one charging pad. In the second arrangement, the connector region includes at least one data port.

An electrical plug is provided. The electrical plug includes a body and a retention device. The body includes a first casing and a second casing. The second casing is pivotally connected to one side of the first casing and can rotate to make one of its ends away from one end of the first casing. The first casing and the second casing form a body inner space together. At least a portion of the retention device can rotate along the same direction as the second casing rotates.

An electrical connector assembly includes a receptacle connector and a plug connector adapted to be mated with each other. The receptacle connector includes a contact unit forwardly assembled into the receptacle housing and having a plurality of receptacle contacts and a common mode choke electrically connected together. The plug connector includes a resilient latch associated with the plug shell and received within an enlarged area of a circumferential space formed between the receptacle shell and the receptacle housing.

A connector with cable is provided with a cable including a wire, a sheath and a braided member interposed between the wire and the sheath, the braided member being formed by braiding conductive wire materials, the braided member being provided with a folded portion formed by folding the braided member exposed from an end of the sheath toward the sheath, a sleeve made of metal and externally fit to an outer surface of the sheath inside the folded portion in a radial direction of the cable, a shield member made of metal and including a barrel for sandwiching the folded portion between the sleeve and the barrel while being crimped to an outer surface of the folded portion, and a housing covered with the shield member. A sleeve-side protrusion projecting radially outwardly of the cable is formed on a rear end part of the sleeve.

A board mating connector includes a signal contact unit, a first ground portion including a hollow portion formed thereinside to accommodate at least a portion of the signal contact unit, a second ground portion including a hollow portion formed thereinside to accommodate at least a portion of the signal contact unit and at least a portion of the first ground portion, and an elastic member disposed between the first ground portion and the second ground portion to provide an elastic restoring force in a first direction. The first ground portion includes a first protrusion protruding outward or inward from a lower end portion thereof, and the second ground portion includes a second protrusion protruding from an upper end portion thereof in a direction different from that of the first protrusion. The first protrusion is engaged with the second protrusion in the hollow portion of the second ground portion.

A board mating connector includes a signal contact unit, a first ground portion including a hollow portion formed thereinside to accommodate at least a portion of the signal contact unit, a second ground portion including a hollow portion formed thereinside to accommodate at least a portion of the signal contact unit and at least a portion of the first ground portion, and an elastic member disposed between the first ground portion and the second ground portion to provide an elastic restoring force in a first direction. The first ground portion includes a first protrusion protruding outward or inward from a lower end portion thereof, and the second ground portion includes a second protrusion protruding from an upper end portion thereof in a direction different from that of the first protrusion. The first protrusion is engaged with the second protrusion in the hollow portion of the second ground portion.

Electrical plug latching systems and related methods are disclosed. According to an aspect, an electrical plug latching system includes a base having an interface for attachment to an electrical plug receptacle. The base defines an opening for receipt of an electrical plug for electrical connection to the electrical plug receptacle. The electrical plug defines a protrusion. Further, the system includes a latch that is attached to the base and that includes a gripper portion. The gripper portion is moveable between a first position and a second position with respect to the base. In the first position, the gripper portion is positioned to interface with the protrusion of the electrical plug to hold the electrical plug in place when electrically connected to the electrical plug receptacle. In the second position. the gripper portion is positioned apart from the protrusion of the electrical plug.

An electrical connector assembly includes a cable assembly having a cable bundle of cables and a conductive cable shield surrounding and providing electrical shielding for the cable bundle. The cable assembly includes an electrical connector a housing holding contacts and a conductive backshell having a cavity that receives the electrical connector to provide electrical shielding for the electrical connector. The backshell has a cable channel at a rear of the backshell that receives the cable. A ground spring is coupled to the cable and positioned between the cable bundle and the cable shield. The ground spring includes spring members engaging the inner surface of the cable shield and biasing the cable shield radially outward. The ground spring is received in the cable channel and forces the outer surface of the cable shield outward against the backshell to electrically connect the cable shield to the backshell.

The present invention relates to an electrical connector comprising a first connector portion, a second connector portion and a locking mechanism, wherein the first connector portion has a first electrical contact element and at least one magnet, and wherein the second connector portion has a second electrical contact element and at least one second magnet with a polarity which is reversed in relation to the first magnet, wherein the first and the second contact element are designed to establish an electrical connection between the first and the second connector portion for power and/or data transmission, and wherein the locking mechanism is of self-locking design.