Method and apparatus for distributed overriding automatic reclosing of fault interrupting devices

What is claimed is: 1. An apparatus, comprising: a communication interface operable to enable communication with a control system for a fault interrupting device operable to open responsive to a fault on an electric distribution system and automatically reclose after a predetermined time delay; and a processing circuit having higher performance than the fault interrupting device control system and operable to: analyze data for the electric distribution system to determine whether to block the automatic reclosing of the fault interrupting device before the fault interrupting device automatically recloses; and generate an autoreclosing block command if the processing circuit determines the automatic reclosing of the fault interrupting device should be blocked, wherein the communication interface is further operable to communicate the autoreclosing block command to the fault interrupting device control system to prevent the automatic reclosing of the fault interrupting device after the predetermined time delay, wherein the data analyzed by the processing circuit includes a digital fault record received from the fault interrupting device control system via the communication interface, the digital fault record representing a time-domain snapshot of voltage and current waveforms observed at the fault interrupting device before and after the fault, and further wherein the communication interface is operable to: open an FTP (File Transfer Protocol) or websockets connection with the fault interrupting device control system responsive to receiving a message indicating the fault interrupting device control system has begun recording the digital fault record; and read the digital fault record from a memory of the fault interrupting device control system via the FTP or websockets connection responsive to receiving a message from the fault interrupting device control system indicating the digital fault record has finished recording. 2. The apparatus of claim 1 , wherein the communication interface is operable to implement a protocol stack compliant with IEC 61850 for enabling communication with the fault interrupting device control system. 3. The apparatus of claim 1 , wherein the processing circuit is a grid automation controller or a microcontroller. 4. The apparatus of claim 3 , wherein the microcontroller includes a floating point unit for analyzing the data. 5. The apparatus of claim 1 , wherein the processing circuit is further operable to analyze the data to determine whether the fault is a temporary fault type or a permanent fault type and generate the autoreclosing block command if the fault is determined to be a permanent fault type. 6. The apparatus of claim 5 , wherein the processing circuit is operable to determine a probability of the fault being a permanent fault type based on the analyzed data and generate the autoreclosing block command if the probability of the fault being a permanent fault is above a predetermined threshold. 7. The apparatus of claim 1 , wherein the data comprises voltage and current signals acquired from the electric distribution system, and wherein the processing circuit is operable to analyze the voltage and current signals in real time over a sliding window to determine whether to block the automatic reclosing of the fault interrupting device. 8. The apparatus of claim 7 , further comprising: sensors operable to acquire the voltage and current signals from the electric distribution system. 9. The apparatus of claim 8 , wherein the sensors have a sampling rate of 1 MHz or higher. 10. The apparatus of claim 8 , wherein the sensors comprise Rogowski coils. 11. The apparatus of claim 7 , wherein the voltage and current signals are acquired from a load side of the fault interrupting device, and wherein the processing circuit is operable to analyze the voltage and current signals for secondary transients having frequencies of around 1 MHz or greater that decay to determine whether to block the automatic reclosing of the fault interrupting device. 12. The apparatus of claim 7 , wherein the voltage and current signals comprise voltage and current values sampled in accordance with IEC 61850-9-2. 13. The apparatus of claim 7 , wherein the processing circuit is further operable to detect the fault independent of the fault interrupting device control system and in response begin analyzing the voltage and current signals to determine whether to block the automatic reclosing of the fault interrupting device. 14. A method of overriding automatic reclosing of a fault interrupting device, the method comprising: establishing communication with a control system for a fault interrupting device operable to open responsive to a fault on an electric distribution system and automatically reclose after a predetermined time delay; opening an FTP (File Transfer Protocol) or websockets connection with the fault interrupting device control system responsive to receiving a message at the apparatus indicating the fault interrupting device control system has begun recording the digital fault record; reading a digital fault record from a memory of the fault interrupting device control system via the FTP or websockets connection responsive to receiving a message at the apparatus indicating the fault interrupting device control system has finished recording the digital fault record; receiving the digital fault record from the fault interrupting device control system at the apparatus, the digital fault record representing a time-domain snapshot of voltage and current waveforms observed at the fault interrupting device before and after the fault; analyzing the digital fault record by an apparatus separate from the fault interrupting device control system and having higher performance than the fault interrupting device control system, to determine whether to block the automatic reclosing of the fault interrupting device before the fault interrupting device automatically recloses; generating an autoreclosing block command by the apparatus if the apparatus determines the automatic reclosing of the fault interrupting device should be blocked; and sending the autoreclosing block command from the apparatus to the fault interrupting device control system to prevent the automatic reclosing of the fault interrupting device after the predetermined time delay. 15. The method of claim 14 , wherein the digital fault record analyzed by the apparatus comprises voltage and current signals acquired from the electric distribution system, the method further comprising: analyzing the voltage and current signals at the apparatus in real time over a sliding window to determine whether to block the automatic reclosing of the fault interrupting device. 16. The method of claim 15 , further comprising: acquiring the voltage and current signals from a load side of the fault interrupting device by the apparatus at a higher sampling rate than possible at the fault interrupting device control system; and analyzing the voltage and current signals at the apparatus for secondary transients having frequencies of around 1 MHz or greater that decay, to determine whether to block the automatic reclosing of the fault interrupting device. 17. The method of claim 15 , further comprising: detecting the fault by the apparatus independent of the fault interrupting device control system; and in response, analyzing the voltage and current signals to determine whether to block the automatic reclosing of the fault interrupting device. 18. The method of claim 14 , further comprising: analyzin