Apparatuses and methods for passive fault monitoring of current sensing devices in protective circuit interrupters

What is claimed is: 1. A method of self-testing a protection device interrupter comprising: monitoring components in the protection device interrupter to determine whether the components are operational during an arrangement chosen from (a) a line hot arm and a line neutral arm of the protection device interrupter being disconnected, respectively, from a load hot arm and a load neutral arm of the protection device interrupter; and (b) the line hot arm and the line neutral arm of the protection device interrupter being connected, respectively, to the load hot arm and the load neutral arm of the protection device interrupter and a load connected to the protection device interrupter via the load hot arm and the load neutral arm is drawing zero current; wherein the protection device interrupter performs current sensing using at least one current sensing coil and the monitoring comprises using, during the arrangement, capacitively coupling of at least one of the line hot arm and the line neutral arm in the protection device interrupter with respect to the at least one current sensing coil to determine whether the monitored components are operational during the arrangement. 2. The method of claim 1 , further comprising disabling connection of the line hot arm and the line neutral arm to, respectively, the load hot arm and the load neutral arm when the monitored components are determined to be nonoperational during either of the arrangement (a) and the arrangement (b). 3. The method of claim 2 , wherein, when the monitoring determines that the monitored components are operational, the method further comprises: analyzing a current signal from the at least one current sensing coil when the line hot arm and the line neutral arm are connected, respectively, to the load hot arm and the load neutral arm; and disconnecting line hot arm and the line neutral arm, respectively, from the load hot arm and the load neutral arm when the current signal satisfies a designated criterion with respect to detection of at least one fault condition chosen from a ground fault and an arc fault. 4. The method of claim 1 , wherein the at least one current sensing coil is a Rogowski coil. 5. The method of claim 1 , further comprising disabling connection of the line hot arm and the line neutral arm to, respectively, the load hot arm and the load neutral arm when the monitored components are determined to be nonoperational during either of the arrangement (a) and the arrangement (b). 6. The method of claim 1 , wherein the monitoring comprises using a noise signal created by the capacitively coupling. 7. The method of claim 6 , further comprising: analyzing a sensed current signal from the at least one current sensing coil when the line hot arm and the line neutral arm are connected, respectively, to the load hot arm and the load neutral arm; subtracting the noise signal from the sensed current signal to generate a line signal; disconnecting the line hot arm and the line neutral arm, respectively, from the load hot arm and the load neutral arm when the line signal satisfies a designated criterion with respect to detection of at least one fault condition chosen from a ground fault and an arc fault. 8. The method of claim 6 , further comprising: analyzing the noise signal created by the capacitively coupling; and disabling connection of the line hot arm and the line neutral arm to, respectively, the load hot arm and the load neutral arm when the noise signal meets a first designated criterion with respect to the reference noise data. 9. The method of claim 8 , further comprising: analyzing a current signal from the current sensing coil when the line hot arm and the line neutral arm are connected, respectively, to the load hot arm and the load neutral arm; and disconnecting line hot arm and the line neutral arm, respectively, from the load hot arm and the load neutral arm when the current signal satisfies a second designated criterion with respect to the reference noise data. 10. The method of claim 9 , further comprising: averaging cycles of the noise signal while the line hot arm and the line neutral arm, respectively, are disconnected from the load hot arm and the load neutral arm to determine a reference noise cycle and a threshold represented by a root mean square value of the reference noise cycle; wherein the second designated criterion corresponds to the threshold, and the disconnecting comprises disconnecting the line hot arm and the line neutral arm, respectively, from the load hot arm and the load neutral arm when the current signal is less than the threshold or greater than the threshold by a selected amount. 11. The method of claim 8 , wherein the monitoring further comprises: averaging cycles of the noise signal to determine a reference noise cycle and a threshold represented by a root mean square value of the reference noise cycle; and correlating the noise signal with the reference noise cycle, the first designated criterion corresponds to a selected threshold of correlation, and the disabling is performed when the correlating results in correlation below the selected threshold. 12. The method of claim 11 , wherein the selected threshold of correlation is 0.976. 13. A method of self-testing a protection device interrupter comprising: monitoring components in the protection device interrupter to determine whether the components are operational during an arrangement chosen from (a) a line hot arm and a line neutral arm of the protection device interrupter being disconnected, respectively, from a load hot arm and a load neutral arm of the protection device interrupter; and (b) the line hot arm and the line neutral arm of the protection device interrupter being connected, respectively, to the load hot arm and the load neutral arm of the protection device interrupter and a load connected to the protection device interrupter via the load hot arm and the load neutral arm is drawing zero current; wherein the monitoring comprises monitoring a characteristic associated with at least a selected one of the components in the protection device interrupter chosen from a coil, analog signal conditioning circuitry, and an analog to digital input of a digital processor in the protection device interrupter; wherein the monitoring a characteristic comprises using a noise signal associated with the components during the arrangement; and the disabling connection of the line hot arm and the line neutral arm to, respectively, the load hot arm and the load neutral arm is performed when the noise signal meets a designated criterion.