Arc fault circuit interrupter

What is claimed is: 1. An arc fault protective wiring device disposed in an electrical distribution system, the device comprising: a plurality of line terminals comprising a line-side phase terminal and a line-side neutral terminal; a plurality of load terminals comprising a load-side phase terminal and a load-side neutral terminal; a line conductor electrically coupling the line-side phase terminal to the load-side phase terminal; a neutral conductor electrically coupling the line-side neutral terminal to the load-side neutral terminal; a pulse frequency digitizer, the pulse frequency digitizer being configured to receive a plurality of pulses, each pulse being representative of an instance that a derivative of current through the conductor exceeds a first predetermined threshold, the pulse frequency digitizer further being configured to produce a digital signal, the digital signal being representative of the instances at which a frequency of the plurality of pulses exceeds a second predetermined threshold; a shunt amplifier having a first input terminal, the first input terminal being connected at a first point along the neutral conductor between the line-side neutral terminal and the load-side neutral terminal, the first point being positioned such that a detectable voltage, proportional to current flowing through a length of the neutral conductor between the first point and ground and as a result of a resistance of the length of neutral conductor, is present, wherein the shunt amplifier is configured to output a shunt signal having a voltage value proportional to the detectable voltage, wherein the length of the neutral conductor does not include a lumped element resistor; and at least one processor configured to trigger a trip mechanism to electrically decouple the at least one of the plurality of line terminal from at least one of the plurality of load terminals based, at least in part, on determining from the digital signal and the shunt signal that an arc fault is occurring. 2. The arc fault protective wiring device of claim 1 , further comprising a di/dt detector configured to produce a di/dt signal representative of the derivative of the current through the conductor. 3. The arc fault protective wiring device of claim 2 , further comprising a comparator, the comparator being configured to receive the di/dt signal and to output a pulse to the pulse frequency digitizer each time the di/dt signal exceeds the first predetermined threshold. 4. The arc fault protective wiring device of claim 3 , further comprising a high pass filter in a series relationship with the output of the comparator, the high pass filter having a corner frequency equal to or less than a maximum output frequency of the comparator. 5. The arc fault protective wiring device of claim 4 , wherein the pulse frequency digitizer further comprises a digitizer configured to output the digital signal when the accumulator signal exceeds a third predetermined threshold, wherein the accumulator signal exceeds the third predetermined threshold when the frequency at which the plurality of pulses were received exceeds the second predetermined threshold. 6. The arc fault protective wiring device of claim 1 , wherein the pulse frequency digitizer comprises an accumulator configured to receive the plurality of pulses and to output an accumulator signal representative of the frequency at which the plurality of pulses were received. 7. The arc fault protective wiring device of claim 6 , wherein the accumulator comprises a capacitor, wherein the digitizer comprises a switch, wherein the capacitor is in series with an output of a comparator and in parallel with a control terminal of the switch. 8. An arc fault protective wiring device disposed in an electrical distribution system, the device comprising: a plurality of line terminals comprising a line-side phase terminal and a line-side neutral terminal; a plurality of load terminals comprising a load-side phase terminal and a load-side neutral terminal; a line conductor electrically coupling the line-side phase terminal to the load-side phase terminal; a neutral conductor electrically coupling the line-side neutral terminal to the load-side neutral terminal; a shunt amplifier having a first input terminal, the first input terminal being connected at a first point along the neutral conductor between the line-side neutral terminal and the load-side neutral terminal, the first point being positioned such that a detectable voltage, proportional to current flowing through a length of the neutral conductor between the first point and ground and as a result of a resistance of the length of the neutral conductor, is present, wherein the shunt amplifier is configured to output a shunt signal having a voltage value proportional to the detectable voltage, wherein the length of the neutral conductor does not include a lumped element resistor; and at least one processor configured to trigger the circuit interrupter to electrically decouple at least one of the plurality of line terminals from the at least one of the plurality of load terminals based, at least in part, on determining from the shunt signal that an arc fault is occurring. 9. The arc fault protective wiring device of claim 8 , wherein the first point is positioned such that the resistance of the length of the neutral conductor is greater than 1 mOhm. 10. The arc fault protective wiring device of claim 8 , wherein the shunt amplifier has a second input terminal, the second input terminal being electrically connected to a reference point of the neutral conductor. 11. The arc fault protective wiring device of claim 10 , wherein the length of the neutral conductor is positioned, and routed through at least one fault sensing component.