Method, system, and apparatus for providing arc flash mitigation

What is claimed is: 1. A power equipment protection system comprising: a first trip unit configured to monitor a first circuit; a second trip unit configured to monitor a second circuit that is downstream from the first circuit; an arc-flash (AF) sensor configured to detect an arc flash; an AF mitigation device; at least one current sensor; and a controller coupled to said AF sensor and said at least one current sensor, said power equipment protection system operable in a first mode and a second mode, wherein in the first mode, said controller is configured to activate said AF mitigation device based on signals generated by both said AF sensor and said at least one current sensor, and wherein in the second mode, said controller is configured to activate said AF mitigation device based on signals generated by at least one of said at least one current sensor and said AF sensor. 2. A power equipment protection system in accordance with claim 1 , further comprising a zone-selective interlocking (ZSI) function implemented on one of said second trip unit and an additional hardware device, wherein in said first mode, said ZSI function is configured to: output a blocking signal when a determined location of a fault is the second circuit; and output an enabling signal when the fault remains after a predetermined period of time or the determined location of the fault is the first circuit. 3. A power equipment protection system in accordance with claim 2 , wherein the blocking signal is operable to inhibit an AF relay from transmitting an activation signal to said controller, and wherein the enabling signal is operable to allow the AF relay to transmit the activation signal to said controller, wherein the AF relay is coupled between said AF sensor and said controller. 4. A power equipment protection system in accordance with claim 2 , further comprising a switch coupled between said controller and said AF mitigation device, wherein the blocking signal is operable to open said switch, and wherein the enabling signal is operable to close said switch. 5. A power equipment protection system in accordance with claim 1 , wherein in the second mode, said controller is configured to: receive a current measurement from said at least one current sensor; and activate said AF mitigation device when the current measurement exceeds a predetermined current threshold. 6. A power equipment protection system in accordance with claim 1 , further comprising at least one voltage sensor, wherein in the first mode, said controller is configured to activate said AF mitigation device based on signals generated by said AF sensor, said at least one current sensor, and said at least one voltage sensor. 7. A power equipment protection system in accordance with claim 1 , further comprising an input device configured to selectively control whether said power equipment protection system operates in the first mode or the second mode. 8. A power equipment protection system in accordance with claim 1 , wherein each of said first and second trip units is coupled to a respective circuit breaker. 9. A controller for use with a power equipment protection system that includes a first trip unit configured to monitor a first circuit, a second trip unit configured to monitor a second circuit that is downstream from the first circuit, at least one current sensor, and an arc-flash (AF) sensor configured to detect an arc flash, wherein said controller is configured to: couple to an AF mitigation device; and operate in a first mode and a second mode, wherein in the first mode, said controller is configured to activate the AF mitigation device based on signals generated by both the AF sensor and the at least one current sensor, and wherein in the second mode, said controller is configured to activate the AF mitigation device based on signals generated by at least one of the at least one current sensor and the AF sensor. 10. A controller in accordance with claim 9 , wherein in the first mode, said controller is configured to: receive an activation signal from an AF relay coupled between the AF sensor and said controller; and transmit the activation signal towards the AF mitigation device. 11. A controller in accordance with claim 10 , wherein said controller is configured to receive an activation signal from the AF relay when the AF sensor detects an arc flash and a fault occurs in the first circuit. 12. A controller in accordance with claim 9 , wherein in the second mode, said controller is configured to: receive a current measurement from the at least one current sensor; and activate the AF mitigation device when the current measurement exceeds a predetermined current threshold. 13. A controller in accordance with claim 9 , wherein said controller is configured to switch between the first mode and the second mode based on an input received at an input device. 14. A method for protecting power equipment, said method comprising: monitoring, using a first trip unit, a first circuit; monitoring, using a second trip unit, a second circuit that is downstream from the first circuit; measuring a current using at least one current sensor; detecting, using an arc-flash (AF) sensor, an arc flash; and activating an AF mitigation device using a controller coupled to the AF sensor, wherein activating the AF mitigation device comprises: activating the AF mitigation device based on signals generated by both the AF sensor and the at least one current sensor when the controller is operating in a first mode; and activating the AF mitigation device based on signals generated by at least one of the at least one current sensor and the AF sensor when the controller is operating in a second mode. 15. A method in accordance with claim 14 , wherein activating the AF mitigation device when the controller is operating in a first mode comprises: outputting, from a ZSI function implemented on one of the second trip unit and an additional hardware device, a blocking signal when a location of a fault is the second circuit; and outputting, from the ZSI function, an enabling signal when the fault remains after a predetermined period of time or the location of the fault is the first circuit. 16. A method in accordance with claim 15 , further comprising: opening a switch coupled between the controller and the AF mitigation device when the ZSI function outputs the blocking signal; and closing the switch when the ZSI function outputs the enabling signal. 17. A method in accordance with claim 15 , further comprising: inhibiting an AF relay from transmitting an activation signal to the controller when the ZSI function outputs the blocking signal, wherein the AF relay is coupled between the AF sensor and the controller; and permitting the AF relay to transmit the activation signal to the controller when the ZSI function outputs the enabling signal. 18. A method in accordance with claim 14 , wherein activating the AF mitigation device when the controller is operating in a second mode comprises: receiving a current measurement from the at least one current sensor; and activating the AF mitigation device when the current measurement exceeds a predetermined current threshold. 19. A method in accordance with claim 15 , wherein activating the AF mitigation device when the controller is operating in a first mode comprises activating the AF mitigation device based on signals generated by the AF sensor, the at least one current sensor, and at least one voltage sensor. 20. A metho