Fault detection and zone location system

What is claimed is: 1. A method of providing selective coordination in a power distribution system having a first feeder circuit zone and a second feeder circuit zone located downstream from the first feeder circuit zone in response to a fault in the second feeder circuit zone, wherein the power distribution system includes a first module having a first circuit interrupter located upstream of the first feeder circuit zone and a second module having a second circuit interrupter located between the first feeder circuit zone and second feeder circuit zone, and wherein a first HFAC signal is provided to the first feeder circuit zone from a location downstream of the first feeder circuit zone and a second HFAC signal is provided to the second feeder circuit zone from a location downstream of the second feeder circuit zone, the method comprising: determining a second HFAC signal magnitude in the second module; causing the second circuit interrupter to perform an instantaneous trip in response to a sensed overcurrent condition in the second circuit interrupter and based on a value of the second HFAC signal magnitude; determining a first HFAC signal magnitude in the first module; and causing the first circuit interrupter to perform a hold and delay trip in response to a sensed overcurrent condition in the first circuit interrupter and based on a value of the first HFAC signal magnitude. 2. The method according to claim 1 , wherein the causing the second circuit interrupter to perform an instantaneous trip comprises causing the second circuit interrupter to perform an instantaneous trip in response to the value of the second HFAC signal magnitude being less than or equal to a second value, and wherein the causing the first circuit interrupter to perform a hold and delay trip comprises causing the first circuit interrupter to perform a hold and delay trip in response to the value of the first HFAC signal magnitude being greater than a first value. 3. The method according to claim 2 , wherein the first value and the second value are equal. 4. The method according to claim 2 , wherein the second value is zero. 5. The method according to claim 1 , further comprising generating the first HFAC signal in the second module and injecting the first HFAC signal into the first feeder circuit zone from the second module, and generating the second HFAC signal in a third module located downstream of the second feeder circuit zone and injecting the second HFAC signal into the second feeder circuit zone from the third module. 6. The method according to claim 1 , further comprising isolating the first feeder circuit zone from the second HFAC signal. 7. A circuit interrupter for use in a location upstream of a first feeder circuit zone of a power distribution system, comprising: separable contacts; an operating mechanism configured to open and close the separable contacts; and an electronic trip unit structured to cooperate with the operating mechanism to trip open the separable contacts, the electronic trip unit being structured and configured to: receive a number of current signals indicating a current of a circuit to which the circuit interrupter is connected; receive an HFAC signal magnitude measured at the location upstream of the first feeder circuit zone responsive to an HFAC signal being provided to the first feeder circuit zone from a location downstream of the first feeder circuit zone; cause the operating mechanism to perform an instantaneous trip of the separable contacts in response to a sensed overcurrent condition in the circuit interrupter and based on a determination that the HFAC signal magnitude satisfies a first parameter; and cause the operating mechanism to perform a hold and delay trip of the separable contacts in response to a sensed overcurrent condition in the circuit interrupter and based on a determination that the HFAC signal magnitude satisfies a second parameter. 8. The circuit interrupter according to claim 7 , wherein the first parameter comprises the HFAC signal magnitude being less than or equal to a first value, and wherein the second parameter comprises the HFAC signal magnitude being greater than a second value. 9. The circuit interrupter according to claim 8 , wherein the first value and the second value are equal. 10. A fault detection and zone location module including the circuit interrupter according to claim 7 and an HFAC signal detection circuit structured to measure the HFAC signal magnitude. 11. The fault detection and zone location module according to claim 10 , further comprising an HFAC signal injection circuit for generating a second HFAC signal and providing the second HFAC signal to a second feeder circuit zone located upstream of the circuit interrupter of the fault detection and zone location module of claim 10 in the power distribution system. 12. The fault detection and zone location module according to claim 10 , further comprising an HFAC isolation circuit located between the circuit interrupter and the HFAC signal detection circuit. 13. The fault detection and zone location module according to claim 10 , wherein the HFAC signal detection circuit is provided within a housing of the circuit interrupter. 14. A system including the circuit interrupter and the first feeder circuit zone according to claim 7 , a second circuit interrupter located upstream of the circuit interrupter, and a second feeder circuit zone located between the circuit interrupter and the second circuit interrupter, the second circuit interrupter including: second separable contacts; a second operating mechanism configured to open and close the second separable contacts; and a second electronic trip unit structured to cooperate with the second operating mechanism to trip open the second separable contacts, the second electronic trip unit being structured and configured to: receive a number of second current signals indicating a current of a circuit to which second circuit interrupter is connected; receive a second HFAC signal magnitude measured at a location upstream of the second feeder circuit zone responsive to a second HFAC signal being provided to the second feeder circuit zone from a location downstream of the second feeder circuit zone; cause the second operating mechanism to perform an instantaneous trip of the second separable contacts based on a determination that the second HFAC signal magnitude satisfies the first parameter; and cause the operating mechanism to perform a hold and delay trip of the separable contacts based on a determination that the HFAC signal magnitude satisfies the second parameter. 15. The system according to claim 14 , wherein the HFAC signal and the second HFAC signal have the same frequency. 16. The system according to claim 14 , wherein the HFAC signal and the second HFAC signal have different frequencies. 17. The system according to claim 14 , wherein the first feeder circuit zone includes a number of parallel branches each being connected to a downstream module having a downstream circuit interrupter, wherein the HFAC signal is provided to the first feeder circuit zone by one of the downstream modules. 18. A method of protecting a power distribution system from a fault on a feed conductor thereof, wherein an HFAC signal is provided to the feed conductor from a location downstream of the feed conductor in the power distribution system, the method comprising: in a module located upstream of the feed conductor in the power distribution system, determining an HFAC signal magnitude in the module, the module inc