Ground fault interrupt and usb power supply electrical wiring device

1 . (canceled) 2 . An electrical wiring device comprising: a plurality of line terminals including a hot line terminal and a neutral line terminal, wherein the plurality of line terminals are configured to be coupled to an AC electrical distribution system; a plurality of load terminals comprising a hot load terminal and a neutral load terminal; a line conductor electrically coupling the hot line terminal to the hot load terminal; a neutral conductor electrically coupling the neutral line terminal to the neutral load terminal; a hot receptacle contact in electrical contact with the hot line terminal when in a reset state and neutral receptacle contact in electrical contact with the neutral line terminal when in the reset state, wherein the hot receptacle contact and the neutral receptacle contact are dimensioned and positioned to receive plug blades of a load plug; a universal serial bus (USB) receptacle configured to receive a USB adapter; a housing defining an inner compartment, wherein the line conductor, the neutral conductor, the hot receptacle contact, the neutral receptacle contact, and the USB receptacle are at least partially disposed in the inner compartment, a ground fault interrupt assembly disposed within the inner compartment, the ground fault interrupt assembly comprising a ground fault interrupt circuit, being formed on a first printed circuit board, and a trip mechanism, the ground fault interrupt circuit being configured to detect a differential current between the line conductor and the neutral conductor and to trigger the trip mechanism to electrically decouple the plurality of line terminals from the plurality of load terminals, according to a predetermined criterion, based, at least in part, on the differential current; and a USB power supply circuit being formed on a second printed circuit board disposed within the inner compartment, the USB power supply circuit providing to the USB receptacle, wherein the first printed circuit board and the second printed circuit board are separated by a distance within the inner compartment. 3 . The electrical wiring device of claim 2 , further comprising a metal-oxide varistor being in common electrical contact with the ground fault interrupt circuit and the USB power supply circuit to absorb voltage transients in either the ground fault interrupt circuit or the USB power supply circuit. 4 . The electrical wiring device of claim 3 , wherein leads of the metal-oxide varistor extend through the first printed circuit board to the second printed circuit board or through the second printed circuit board to the first printed circuit board. 5 . The electrical wiring device of claim 2 , further comprising a second hot receptacle contact in electrical contact with the hot line terminal when in the reset state and a second neutral receptacle contact in electrical with the neutral line terminal when in the reset state. 6 . The electrical wiring device of claim 5 , wherein the hot receptacle contact is in electrical contact with the second hot receptacle contact by a first fixed contact bridge extending between the hot receptacle contact and the second hot receptacle contact, wherein the neutral receptacle contact is in electrical contact with the second neutral receptacle contact by a second fixed contact bridge extending between the neutral receptacle contact and the second neutral receptacle contact, wherein the first fixed contact bridge and the second fixed contact bridge are respectively diverted toward a perimeter of the housing, wherein at least one of a USB receptacle printed circuit board upon which the USB receptacle is mounted, the USB receptacle, the ground fault interrupt assembly, or the USB power supply circuit is, at least in part, disposed between the first fixed contact bridge and the second fixed contact bridge. 7 . The electrical wiring device of claim 2 , wherein the USB power supply circuit comprises a transformer, wherein the second printed circuit board includes a first side and a second side, wherein the first side faces the ground fault interrupt assembly, wherein the second side faces away from the ground fault interrupt assembly, wherein the transformer is disposed on the second side of the second printed circuit board. 8 . The electrical wiring device of claim 7 , wherein each electrical component of the USB power supply circuit is disposed on the second side. 9 . The electrical wiring device of claim 2 , wherein the USB power supply circuit comprises a controller and a bridge rectifier, wherein the controller is separated from the bridge rectifier of by a distance of at least 15 mm. 10 . The electrical wiring device of claim 2 , wherein the ground fault interrupt assembly is disposed between the USB power supply circuit and a front cover, wherein the USB power supply circuit is electrically connected to the USB receptacle by a conductive wire extending past the ground fault interrupt assembly and between the line conductor and the neutral conductor. 11 . The electrical wiring device of claim 2 , wherein the USB power supply circuit is in electrical contact with the hot load terminal and the neutral load terminal to receive power when the electrical wiring device is in the reset state. 12 . The electrical wiring device of claim 2 , wherein the USB power supply circuit is in electrical contact with the hot line terminal and the neutral line terminal. 13 . The electrical wiring device of claim 2 , wherein the line conductor and the neutral conductor are comprised of a material having a conductivity at least 35% IACS. 14 . The electrical wiring device of claim 13 , wherein the line conductor and the neutral conductor are comprised of a brass material. 15 . An electrical wiring device comprising: a plurality of line terminals including a hot line terminal and a neutral line terminal, wherein the plurality of line terminals are configured to be coupled to an AC electrical distribution system; a plurality of load terminals comprising a hot load terminal and a neutral load terminal; a line conductor electrically coupling the hot line terminal to the hot load terminal; a neutral conductor electrically coupling the neutral line terminal to the neutral load terminal; a hot receptacle contact in electrical contact with the hot line terminal when in a reset state and neutral receptacle contact in electrical contact with the neutral line terminal when in the reset state, wherein the hot receptacle contact and the neutral receptacle contact are dimensioned and positioned to receive plug blades of a load plug; a universal serial bus (USB) receptacle configured to receive a USB adapter; a housing defining an inner compartment, wherein the line conductor, the neutral conductor, the hot receptacle contact, the neutral receptacle contact, and the USB receptacle are at least partially disposed in the inner compartment, a ground fault interrupt assembly disposed within the inner compartment, the ground fault interrupt assembly comprising a ground fault interrupt circuit and a trip mechanism, the ground fault interrupt circuit being configured to detect a differential current between the line conductor and the neutral conductor and to trigger the trip mechanism to electrically decouple the plurality of line terminals from the plurality of load terminals, according to a predetermined criterion, based, at least in part, on the differential current, and a USB power supply circuit disposed within the inner compartment, the USB power supply circuit providing power to the USB receptacle, wherein the USB power supply circuit is in electrical contact w