Field Validation of a Local, Traveling-Wave, Fault Detection Method for DC Microgrids

Field Validation of a Local, Traveling-Wave, Fault Detection Method for DC Microgrids

This paper proposes and validates a near realtime fault detection method using Traveling Waves (TWs) for DC microgrids. The method can be executed on low-cost embedded devices. Local positive pole voltage measurements are obtained at a high-sampling rate of 1 MHz, and a second-order high-pass filter...

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Bibliographic Details
Published in:2023 IEEE PES Innovative Smart Grid Technologies Latin America (ISGT-LA) pp. 250 - 254
Main Authors: Hernandez-Alvidrez, Javier, Dow, Andrew R. R., Jimenez-Aparicio, Miguel, Reno, Matthew J., Bauer, Daniel, Ruiz, Daniel
Format: Conference Proceeding
Language:English
Published: IEEE 06-11-2023
Subjects:
Current measurement
DC Microgrid
Digital signal processors
Fault detection
Microgrids
Oscilloscopes
Power System Protection
Recording
Signal-Processing
Traveling Wave
Voltage measurement
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Summary:This paper proposes and validates a near realtime fault detection method using Traveling Waves (TWs) for DC microgrids. The method can be executed on low-cost embedded devices. Local positive pole voltage measurements are obtained at a high-sampling rate of 1 MHz, and a second-order high-pass filter is used to detect high-frequency transients on such time-series. A fault emulation hardware is assembled on a real DC microgrid to validate the performance of the method. A Texas Instrument Digital Signal Processor (DSP) device is mounted onto a custom signal-conditioning board. When a TW is detected, the DSP is capable of recording positive and negative pole voltages and positive pole current around the TW arrival time. Results show that the DSP's recording capabilities are similar to commercial oscilloscopes. This method can provide an accurate TW detection on DC microgrids in less than 15 microseconds.
ISSN:2643-8798
DOI:10.1109/ISGT-LA56058.2023.10328289