Control circuit configured to determine when a direct current component in an alternating current power line passes a designated threshold

What is claimed is: 1. A control circuit configured to monitor an alternating current power line, the control circuit comprising: a Hall Effect sensor configured to detect alternating current transmitted through a power line, wherein the alternating current of the power line includes an alternating current (AC) component and a direct current DC offset component; a filter sub-circuit configured to receive a sensor output from the Hall Effect sensor that is representative of the AC component and the DC component, the AC component having a frequency that is higher than a frequency of the DC component, the filter sub-circuit configured to block the AC component and generate a DC output that is based on the DC component without the AC component; and an analysis sub-circuit configured to receive the DC output from the filter sub-circuit and determine that the DC output from the filter sub-circuit has passed a designated threshold, the analysis sub-circuit configured to trip a relay or output a signal when the DC output from the filter sub-circuit passes the designated threshold. 2. The control circuit of claim 1 , wherein the control circuit is configured to operate in a standard mode and in an emergency mode, the designated threshold being smaller for the standard mode than the emergency mode such that certain fault events are ignored when the control circuit is operating in the emergency mode. 3. The control circuit of claim 1 , further comprising a reconditioning sub-circuit configured to modify the DC output from the filter sub-circuit prior to the DC output being received by the analysis sub-circuit. 4. A control circuit configured to monitor an alternating current power line, the control circuit comprising: a current sensor configured to detect alternating current transmitted through a power line, wherein the alternating current of the power line includes an alternating current (AC) component and a direct current DC offset component; a filter sub-circuit configured to receive a sensor output from the current sensor that is representative of the AC component and the DC component, the AC component having a frequency that is higher than a frequency of the DC component, the filter sub-circuit configured to block the AC component and generate a DC output that is based on the DC component; and an analysis sub-circuit configured to receive the DC output from the filter sub-circuit and determine that the DC output from the filter sub-circuit has passed a designated threshold, the analysis sub-circuit configured to trip a relay or output a signal when the DC output from the filter sub-circuit passes the designated threshold; wherein the control circuit is configured to operate in a standard mode and in an emergency mode, further comprising a reconditioning sub-circuit modifying the DC output in a first manner during the standard mode and modifying the DC output in a second manner during the emergency mode, the DC output being modified in the emergency mode such that certain fault events are ignored when the control circuit is operating in the emergency mode. 5. The control circuit of claim 1 , wherein the reconditioning sub-circuit offsets the value of the output from the filter sub-circuit by a predetermined amount. 6. The control circuit of claim 1 , wherein the control circuit is configured to analyze the DC component to identify one or more fault events. 7. A system that includes the control circuit of claim 1 , the system further comprising: the alternating current power line that is configured to convey the power from the power supply to a load; and a circuit breaker coupled to the power line wherein the analysis sub-circuit of the control circuit is configured to open a contactor or relay when the DC output from the filter sub-circuit passes the designated threshold or output the signal to an operator when the DC output from the filter sub-circuit passes the designated threshold. 8. The system of claim 7 , wherein the control circuit is configured to operate in a standard mode and in an emergency mode, the designated threshold being smaller for the standard mode than the emergency mode such that certain fault events are ignored when the control circuit is operating in the emergency mode. 9. The system of claim 7 , further comprising a reconditioning sub-circuit configured to modify the DC output from the filter sub-circuit prior to the DC output being received by the analysis sub-circuit. 10. The system of claim 9 , wherein the control circuit is configured to operate in a standard mode and in an emergency mode, the reconditioning sub-circuit modifying the DC output in a first manner during the standard mode and modifying the DC output in a second manner during the emergency mode, the DC output being modified in the emergency mode such that certain fault events are ignored when the control circuit is operating in the emergency mode. 11. The system of claim 7 , wherein the control circuit is configured to analyze the DC component to identify one or more fault events out of a plurality of fault events have occurred. 12. A method comprising: monitoring an alternating current power line that conveys power to a load using a Hall Effect sensor; detecting an alternating current (AC) component and a direct current (DC) offset component in the alternating current; generating a sensor output that is representative of the AC component and the DC component, the AC component having a frequency that is higher than a frequency of the DC component; filtering the sensor output by blocking the AC component and generating a DC output that is based on the DC component without the AC component; determining the DC output has passed a designated threshold; and tripping a relay or outputting a signal when the DC output passes the designated threshold. 13. The method of claim 12 , further comprising switching from a standard mode to an emergency mode, the designated threshold during the standard mode being smaller than the designated threshold during the emergency mode such that certain fault events are ignored in the emergency mode. 14. The method of claim 12 further comprising modifying the DC output prior to determining the DC output has passed the designated threshold; switching from a standard mode to an emergency mode, the DC output being modified in a first manner during the standard mode and modified in a different second manner during the emergency mode, the DC output being modified in the emergency mode such that certain fault events are ignored when the control circuit is operating in the emergency mode. 15. The control circuit of claim 3 , further comprising a single integrated circuit chip having the Hall Effect sensor, the reconditioning sub-circuit, and the analysis sub-circuit. 16. The control circuit of claim 1 , wherein a current of the AC component is at least 100 times greater than a current of the DC component. 17. The control circuit of claim 16 , wherein the power line is configured to carry 115 VAC at fixed or variable frequency. 18. The control circuit of claim 1 , wherein the sensor output is a function of a designated base voltage, the designated base voltage having a value when no magnetic field is detected. 19. The system of claim 7 , wherein the circuit breaker includes a single integrated circuit chip having the Hall Effect sensor and the analysis sub-circuit. 20. The system of claim 7 , wherein the system includes a three-phase solar inverter, the control circuit configured to monitor undesired DC offset f