Sensing a high frequency arc noise in an arc fault detection circuit interruption (AFCI) device

What is claimed is: 1. An arc fault detection circuit interruption (AFCI) device, comprising: a high frequency arc noise sensor disposed across a hot conductor and a neutral conductor, wherein the high frequency arc noise sensor includes a surge protection device across the hot conductor and the neutral conductor and a surge protection circuit such that the surge protection device protects against a first voltage surge in a first range of thousands to hundreds volts and the surge protection circuit protects against a second voltage surge in a second range of hundreds to few volts; and an arc fault detection circuit coupled in series with the high frequency arc noise sensor, wherein the arc fault detection circuit is coupled to a series combination of a trip solenoid or electromagnet and a silicone-controlled rectifier disposed across the hot conductor and the neutral conductor, and wherein the surge protection circuit includes a tapped capacitor transformer circuit having a first output and a second output such that the first output having a first coupling capacitor in series and the second output having a second coupling capacitor in series. 2. The arc fault detection circuit interruption (AFCI) device of claim 1 , wherein the surge protection device is a metal oxide varistor. 3. The arc fault detection circuit interruption (AFCI) device of claim 1 , wherein the arc fault detection circuit includes a first input port and a second input port such that the first coupling capacitor is coupled to the first input port in series and the second coupling capacitor is coupled to the second input port in series. 4. The arc fault detection circuit interruption (AFCI) device of claim 3 , wherein the tapped capacitor transformer circuit matches an impedance at a Radio Frequency (RF) input pin of the arc fault detection circuit to around 75 Ohms which is in middle of a minimum and a maximum impedance range of power lines at around 21 MHz to produce a quality arc fault output power signal. 5. The arc fault detection circuit interruption (AFCI) device of claim 3 , wherein the tapped capacitor transformer circuit provides a 2-pole band pass filter centered at 21 MHz with a bandwidth of about 6 MHz. 6. The arc fault detection circuit interruption (AFCI) device of claim 3 , wherein the tapped capacitor transformer circuit eliminates 120 VAC from imposing on a Radio Frequency (RF) input pin of the arc fault detection circuit. 7. The arc fault detection circuit interruption (AFCI) device of claim 3 , wherein the tapped capacitor transformer circuit minimizes exposure of input ports of the arc fault detection circuit to harmful high voltage or current transient surge environment that exists on a power line. 8. The arc fault detection circuit interruption (AFCI) device of claim 3 , wherein a capacitance of the surge protection device from the hot conductor to the neutral conductor that normally attenuates high frequency noise generated by an arc fault is integrated into the tapped capacitor transformer circuit and therefore does not attenuate the high frequency noise generated by the arc fault. 9. The arc fault detection circuit interruption (AFCI) device of claim 3 , wherein the tapped capacitor transformer circuit eliminates any need for an additional capacitor from the hot conductor to the neutral conductor that attenuates Power Line Carrier (PLC) transmissions. 10. The arc fault detection circuit interruption (AFCI) device of claim 3 , wherein a resistive attenuator arranged in a “Pi” or “Tee” configuration is added between an output of the tapped capacitor transformer circuit and the first coupling capacitor. 11. The arc fault detection circuit interruption (AFCI) device of claim 10 , wherein values of resistors in the resistive attenuator are calculated for an attenuation of 3 dB and an input and output resistance of 350 Ohms. 12. The arc fault detection circuit interruption (AFCI) device of claim 11 , wherein the values for the resistors of the resistive attenuator are 2.1 Kilo-Ohms for shunt resistors and 124 Ohms for series resistor. 13. A method of sensing a high frequency arc noise in an arc fault detection circuit interruption (AFCI) device, the method comprising: providing a high frequency arc noise sensor disposed across a hot conductor and a neutral conductor, wherein the high frequency arc noise sensor includes a surge protection device across the hot conductor and the neutral conductor and a surge protection circuit such that the surge protection device protects against a first voltage surge in a first range of thousands to hundreds volts and the surge protection circuit protects against a second voltage surge in a second range of hundreds to few volts; and providing an arc fault detection circuit coupled in series with the high frequency arc noise sensor, wherein the arc fault detection circuit is coupled to a series combination of a trip solenoid or electromagnet and a silicone-controlled rectifier disposed across the hot conductor and the neutral conductor, and wherein the surge protection circuit includes a tapped capacitor transformer circuit having a first output and a second output such that the first output having a first coupling capacitor in series and the second output having a second coupling capacitor in series. 14. The method of claim 13 , wherein the surge protection device is a metal oxide varistor. 15. The method of claim 13 , wherein the arc fault detection circuit includes a first input port and a second input port such that a first coupling capacitor is coupled to the first input port in series and a second coupling capacitor is coupled to the second input port in series. 16. The method of claim 13 , wherein the tapped capacitor transformer circuit matches an impedance at a Radio Frequency (RF) input pin of the arc fault detection circuit to around 75 Ohms which is in middle of a minimum and a maximum impedance range of power lines at around 21 MHz to produce a quality arc fault output power signal. 17. The method of claim 13 , wherein the tapped capacitor transformer circuit provides a 2-pole band pass filter centered at 21 MHz with a bandwidth of about 6 MHz. 18. The method of claim 13 , wherein the tapped capacitor transformer circuit eliminates 120 VAC from imposing on a Radio Frequency (RF) input pin of the arc fault detection circuit.