Ground fault circuit interrupter (GFCI) system and method

What is claimed is: 1. A wiring device comprising: a face terminal for electrically connecting to an external load; a line terminal for electrically connecting to an external power supply; a load terminal for electrically connecting to a second external load; a face contact electrically connected to the face terminal; one or more line contact arms electrically connected to the line terminal, each line contact arm having an upper line contact located on a bent portion of the line contact arm, and a lower line contact located on a substantially straight portion of the line contact arm; and one or more load contact arms electrically connected to the load terminal, each load contact arm having a load contact located on a bent portion of the load contact arm; wherein, the face contact and the upper line contact are electrically connected, and the lower line contact and the load contact are electrically connected, when the wiring device in is a closed position, and the face contact and the upper line contact are electrically disconnected, and the lower line contact and the load contact are electrically disconnected when the wiring device is in an open position. 2. The wiring device of claim 1 , wherein the face contact and the upper line contact are in a substantially flat connection when the wiring device is in the closed position. 3. The wiring device of claim 1 , wherein the lower line contact and the load contact are in a substantially flat connection when the wiring device is in the closed position. 4. The wiring device of claim 1 , wherein the bent portion of the line contact arm is bent at an angle of approximately three degrees to approximately six degrees relative to the substantially straight portion of the line contact arm. 5. The wiring device of claim 1 , wherein the bent portion of the load contact arm is bent at an angle of approximately three degrees to approximately six degrees. 6. The wiring device of claim 1 , further comprising a fault detection circuit that detects a fault condition in said wiring device and generates a fault detection signal when said fault condition is detected, wherein said fault detection signal electrically disconnects the face contact from the upper line contact and the lower line contact from the load contact. 7. A wiring device comprising: a face contact; one or more line contact arms having an upper line contact located on a bent portion of the line contact arm, and a lower line contact located on a substantially straight portion of the line contact arm; one or more load contact arms having a load contact located on a bent portion of the load contact arm; and a fault detection circuit that detects a fault condition in said wiring device and generates a fault detection signal when said fault condition is detected, wherein said fault detection signal electrically disconnects the face contact from the upper line contact and the lower line contact from the load contact. 8. The wiring device of claim 7 , further comprising a face terminal for electrically connecting to an external load, the face terminal electrically connected to the upper line contact; a line terminal for electrically connecting to an external power supply, the line terminal electrically connected to the one or more line contact arms; and a load terminal for electrically connecting to a second external load, the load terminal electrically connected to the one or more load contact arms. 9. The wiring device of claim 7 , wherein the face contact and the upper line contact are in a substantially flat connection when the wiring device is in the closed position. 10. The wiring device of claim 7 , wherein the lower line contact and the load contact are in a substantially flat connection when the wiring device is in the closed position. 11. The wiring device of claim 7 , wherein the bent portion of the line contact arm is bent at an angle of approximately three degrees to approximately six degrees relative to the substantially straight portion of the line contact arm. 12. The wiring device of claim 7 , wherein the bent portion of the load contact arm is bent at an angle of approximately three degrees to approximately six degrees. 13. A method of operating a wiring device, the method comprising: providing a face contact; providing one or more line contact arms, each line contact arm having an upper line contact located on a bent portion of the line contact arm, and a lower line contact located on a substantially straight portion of the line contact arm; providing one or more load contact arms, each load contact arm having a load contact located on a bent portion of the load contact arm; electrically connecting the face contact and the upper line contact; and electrically connecting the lower line contact and the load contact. 14. The method of claim 13 , wherein the face contact and the upper line contact are electrically connected in a substantially flat connection. 15. The method of claim 13 , wherein the lower line contact and the load contact are electrically connected in a substantially flat connection. 16. The method of claim 13 , wherein the bent portion of the line contact arm is bent at an angle of approximately three degrees to approximately six degrees relative to the substantially straight portion of the line contact arm. 17. The method of claim 13 , wherein the bent portion of the load contact arm is bent at an angle of approximately three degrees to approximately six degrees. 18. The method of claim 13 , further comprising detecting a fault condition; and electrically disconnecting the face contact from the upper line contact and the lower line contact from the load contact when the fault condition is detected.