Arc fault detection with sense wire monitoring

What is claimed is: 1. A method of identifying an arc fault in a first wire operably connected between a controller and a load, the method comprising: operably connecting a first sense wire to the first wire connected to a first load supplied by the controller via the first wire; measuring a first voltage on the first wire at the first load via the first sense wire; measuring a second voltage on the first wire at a first output interface of the controller; measuring a first current in the first wire; identifying any differences between the first voltage on the first wire measured at the first load and the second voltage on the first wire measured at the first output interface; ascertaining any anomalies in the first current measured in the first wire; and correlating the differences between the first voltage and the second voltage with any anomalies in the first current to identify an arc fault; wherein the correlating further includes: receiving a signal indicative of the envelope of the spectral content on the first wire in a selected frequency range: receiving the signal indicative of current in the first wire based on the measuring; applying a negative clipping function to the signal to form a positive envelope signal; applying a derivative function to the positive envelope signal the derivative function yielding a pulse signal indicative of changes in the positive envelope signal; if the pulse signal exceeds a first selected threshold, integrating the pulse signal to yield an accumulated pulse signal; otherwise set the accumulated pulse signal to zero; if the accumulated pulse signal exceeds a second threshold set a first flag as true indicating a selected amount of information indicative of an arc fault has been acquired; counting the occurrences the first flag is set as true; if the count exceeds a selected third threshold, set a second flag indicating the that the spectral content as measured from the wire indicates a possible series arc fault; filtering the signal indicative of the current in the first wire to formulate a pulse associated with when the measured current exhibits an interruption; accumulating instances when the measured current exhibits an interruption based on the pulses; if the accumulated instances when the measured current exhibits an interruption exceeds a fourth selected threshold and a second flag indicating that the spectral content as measured from the first wire indicates a possible series arc faults is set then identify a series arc fault in the first wire. 2. The method of identifying an arc fault as recited in claim 1 , further including routing the first sense wire in parallel with the first wire. 3. The method of identifying an arc fault as recited in claim 1 , wherein the first sense wire is a shield associated with the first wire. 4. The method of identifying an arc fault as recited in claim 1 , further including routing the sense first wire with another wire. 5. The method of identifying an arc fault as recited in claim 1 , wherein the first sense wire is connected to the first wire in close proximity to the first load. 6. The method of identifying an arc fault as recited in claim 1 , further including: operably connecting a second sense wire to a second wire connected to a second load supplied by the controller via the second wire; measuring a third voltage on the second wire at the load via the second sense wire; measuring a fourth voltage on the second wire at a second output interface of the controller; measuring a second current in the second wire; identifying any differences between the third voltage on the second wire measured at the load and the fourth voltage on the second wire measured at the second output interface; ascertaining any anomalies in the second current measured in the second wire; and correlating the differences between the third voltage and the fourth voltage with any anomalies in the second current to identify an arc fault. 7. The method of identifying an arc fault as recited in claim 6 , wherein the first load and the second load are the same. 8. The method of identifying an arc fault as recited in claim 6 , further including routing the first sense wire in parallel with the second wire. 9. The method of identifying an arc fault as recited in claim 6 , further including routing the second sense wire with the first wire. 10. The method of identifying an arc fault as recited in claim 6 , wherein the second sense wire is connected to the second wire in close proximity to the second load. 11. The method of identifying an arc fault as recited in claim 6 , further including a third wire and a third sense wire, wherein the load is a three phase load. 12. The method for identifying an arc fault as recited in claim 1 further including the controller further operable to execute a method of identifying an arc fault in a wire further comprising: if the accumulated pulse signal exceeds a fifth selected threshold and the count exceeds a selected sixth selected threshold, set a third flag indicating the that the spectral content as measured from the wire indicates a possible parallel arc fault; filtering the signal indicative of the current in the wire to formulate pulses associated with when the measured current exhibits an interruption; if the pulses exceed a seventh selected threshold, accumulating instances when the measured current exhibits an interruption based on the pulses; if the accumulated instances when the measured current exhibits an interruption exceeds an eighth selected threshold setting a fourth flag indicative of a current fault; if the third flag indicating the that the spectral content as measured from the wire indicates a possible parallel arc fault is set and the fourth flag indicating a sufficient current fault is set, identify a parallel arc fault for the wire. 13. The method of identifying an arc fault as recited in claim 1 , wherein the receiving a signal indicative of the envelope of the spectral content on the wire under test in a selected frequency range is based on: filtering the first voltage on the first wire with a bandpass filter having a selected pass band to select and retain spectral content, wherein the pass band frequency range in the range of about 10 MHz to about 40 MHz; amplifying the retained spectral content with a linear preamplifier; identifying an envelope of the amplified retained spectral content by applying a logarithmic amplifier to the amplified retained spectral content, the envelope indicative of the RF energy content of the spectral content in the pass band; wherein the controller incudes a current sense function, the current sense function including measuring a first current in the first wire; correlating changes in the first current with a characteristic of the amplified retained spectral content to identify an arc fault, wherein the characteristic includes a buffered envelope as a signal indicative of the amount of energy in the selected pass band frequency range. 14. A system for identifying an arc fault in a wire, the system comprising: a controller operably connected to a first load via first wire; the controller configured to supply a current to the first load via the first wire; a first sense wire operably connected to the first wire, the first sense wire operably connected to the controller; wherein the controller includes a voltage sense function and a current sensing function, the controller operable to execute a process to: measure a first voltage on the first wire at the first load via the first sense wire; measure a second voltage on the first wire at a first o