Systems and methods for detecting and identifying arcing based on numerical analysis

We claim: 1. A method of detecting and identifying arcing in an arc fault circuit interrupter having a power-line monitoring and processing circuit comprising: obtaining by the power-line monitoring and processing circuit a plurality of line-current samples at a sampling rate over a cycle of a voltage waveform; calculating a plurality of difference function values as a difference between two consecutive line-current samples of said plurality of line-current samples; determine a maximum value and a minimum value of said plurality of line current samples for the cycle; calculating a peak-to-peak value of the line-current for the cycle as a relative difference between said maximum value and said minimum value of said plurality of line current samples; calculating an average of the difference function values; first comparing each of the difference function values to the calculated average of the difference function values for the cycle; second comparing each of the difference function values to the calculated peak-to-peak value of the line-current for the cycle; and identifying at least one fast transient current spike in the cycle based on a result of at least one of said first comparing and said second comparing. 2. The method of claim 1 , further comprising: computing a composite comparison function based on said first comparing and said second comparing to form a weighting function; and further identifying at least one fast transient current spike in the cycle based on said weighting function. 3. The method of claim 2 , wherein further said weighing function performs at least one of: emphasizes difference function values that are large in comparison to the peak-to-peak value of the line-current and to the average of the difference of the function values; and de-emphasizes difference values that are small in comparison to the peak-to-peak value of the line-current and to the average of the difference of the function values. 4. The method of claim 2 , further comprising setting at least first and second thresholds to determine if arcing is present within the cycle based on the computing of the composite comparison function. 5. The method of claim 4 , wherein the first threshold comprises a detection value limit above which the result of the calculation for a given one of said line-current samples is recognized as a current-spike, and the second threshold comprises a minimum required number of said line-current samples within the cycle for which the result of the calculation exceeds a current-spike detection value limit. 6. The method of claim 5 , wherein said first threshold is set such that noise present under no-load conditions does not produce any samples within a given cycle that are recognized as said current-spike, and said second threshold is set high enough to accommodate normal operating conditions in which at least one of said current-spikes may be present. 7. The method of claim 5 , further comprising adjusting at least one of the first and second thresholds for performing a determination of the presence of arcing within the cycle.