System and method for discerning arcing in electrical wiring

What is claimed is: 1. A wiring device comprising: an interrupting device electrically connecting one or more line terminals to one or more load terminals when the interrupting device is in a reset condition and disconnecting the line terminals from the load terminals when the interrupting device is in a tripped condition; a fault detection circuit configured to detect a fault condition and generate a fault detection signal in response to detecting the fault condition, the fault detection signal being provided to the interrupting device to place the interrupting device in the tripped condition; and a controller having an electronic processor and a memory, the controller configured to monitor a current of the one or more line terminals, identify a presence of at least one selected from a group consisting of an in-rush condition and a steady-state condition, wherein an in-rush of the current exists when the one or more cycles of current conform with a decay progression envelope, and wherein a steady-state of the current exists when the one or more cycles of current conform to both a range of allowable variation in RMS value and an envelope of acceptable variation in correlation coefficient value, and prevent the output of the fault detection signal upon identifying at least one selected from the group consisting of the in-rush condition and the steady-state condition. 2. The wiring device of claim 1 , wherein output of the fault detection signal is prevented for a predetermined time period upon identifying the in-rush condition or the steady-state condition. 3. A wiring device comprising: an interrupting device electrically connecting one or more line terminals to one or more load terminals when the interrupting device is in a reset condition and disconnecting the line terminals from the load terminals when the interrupting device is in a tripped condition; a fault detection circuit configured to detect a fault condition and generate a fault detection signal in response to detecting the fault condition, the fault detection signal being provided to the interrupting device to place the interrupting device in the tripped condition; and a controller having an electronic processor and a memory, the controller configured to monitor a current of the one or more line terminals, identify a presence of at least one selected from a group consisting of an impulse condition and a volatility condition, wherein at least one selected from the group consisting of the impulse condition and the volatility condition is identified by determining when a root-mean-square (RMS) value of at least one cycle of the current has crossed a threshold, and a magnitude of change in a RMS value between a first cycle of the current and a second cycle of the current is greater than a threshold, and output the fault detection signal upon identifying at least one selected from the group consisting of the impulse condition and the volatility condition. 4. The wiring device of claim 3 , wherein the volatility condition is identified by the controller further being configured to: determine a volatility of the current exists when a magnitude of change in current from a first cycle to a second cycle falls outside a range of acceptance. 5. The wiring device of claim 4 , wherein the range of acceptance is determined from the variance in RMS value of the current of the previous one or more cycles. 6. A method of controlling a wiring device having one or more line terminals and one or more load terminals, the method comprising: sensing, via a sensor, a current of the one or more line terminals; identifying, via a controller, a presence of at least one selected from a group consisting of an in-rush condition and a steady-state condition, wherein an in-rush of the current exists when the one or more cycles of current conform with a decay progression envelope, and wherein a steady-state of the current exists when the one or more cycles of current conform to both a range of allowable variation in RMS value and an envelope of acceptable variation in correlation coefficient value; and preventing, via the controller, interruption of power between the one or more line terminals and one or more load terminals upon identifying that at least one selected from the group consisting of the in-rush condition and the steady-state condition occurs. 7. The method of claim 6 , wherein output of the fault detection signal is prevented for a predetermined time period upon identifying the in-rush condition. 8. The method of claim 6 , wherein the steady-state condition is identified by: analyzing, via the controller, one or more cycles of current, and determining, via the controller, a steady-state of the current exists when the one or more cycles of current conform to a range of allowable variation in RMS value and an envelope of acceptable variation in correlation coefficient value. 9. The method of claim 8 , wherein the envelope of acceptable variation is determined from the variance in the degree of correlation between contiguous members of the set of the one or more previous cycles. 10. The method of claim 6 , wherein output of the fault detection signal is prevented for a predetermined time period upon identifying the steady-state condition. 11. A method of controlling a wiring device having one or more line terminals and one or more load terminals, the method comprising: sensing, via a sensor, a current of the one or more line terminals; identifying, via a controller, a presence of at least one selected from a group consisting of an impulse condition and a volatility condition wherein at least one selected from the group consisting of the impulse condition and the volatility condition is identified by determining when a root-mean-square (RMS) value of at least one cycle of the current has crossed a threshold, and a magnitude of change in a RMS value between a first cycle of the current and a second cycle of the current is greater than a threshold; and interrupting power between the one or more line terminals and one or more load terminals upon identifying at least one selected from the group consisting of the impulse condition and the volatility condition. 12. The method of claim 11 , wherein the volatility condition is identified by: analyzing, via the controller, one or more cycles of the current, and determining, via the controller, a volatility of the current exists when a magnitude of change in current from a first cycle to a second cycle falls outside a range of acceptance. 13. The method of claim 12 , wherein the range of acceptance is determined from the variance in RMS value of the current of the previous one or more cycles. 14. A wiring device comprising: an interrupting device electrically connecting one or more line terminals to one or more load terminals when the interrupting device is in a reset condition and disconnecting the line terminals from the load terminals when the interrupting device is in a tripped condition; a fault detection circuit configured to detect a fault condition and generate a fault detection signal in response to detecting the fault condition, the fault detection signal being provided to the interrupting device to place the interrupting device in the tripped condition; and a controller having an electronic processor and a memory, the controller configured to monitor a current of the one or more line terminals, identify a presence of at least one selected from a group consisting of an impulse condition, a volatility condition, and an in-rush condition, wherein an in-rush of the current exists when the one or more cycles of current confor