Fault location in DC microgrids based on a multiple capacitive earthing scheme

Ahmad Makkieh, Vasileios Psaras, Rafael Pena Alzola, Dimitrios Tzelepis, Abdullah Emhemed, Graeme Burt

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7 Citations (Scopus)
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This paper presents a new method for locating faults along feeders in a DC microgrid using a multiple capacitive earthing scheme. During fault conditions, capacitors within the earthing scheme are charging by transient currents that correlate to the fault distance and resistance. Therefore, by assessing the response of the capacitive earthing scheme during the fault, the distance to fault is estimated. The proposed method uti- lizes instantaneous current and voltage measurements (obtained from the feeder terminals and earthing capacitors) applied to an analytical mathematical model of the faulted feeder. The proposed method has been found to accurately estimate the fault position along the faulted feeder and systematic evaluation has been carried out to further scrutinize its performance under different loading scenarios and highly-resistive faults. Addition- ally, the performance and practical feasibility of the proposed method has been experimentally validated by developing a low- voltage laboratory prototype and testing it under a series of test conditions.
Original languageEnglish
Number of pages10
JournalIEEE Journal of Emerging and Selected Topics in Power Electronics
Early online date20 May 2020
Publication statusE-pub ahead of print - 20 May 2020


  • capacitive earthing
  • DC microgrids
  • fault location
  • fault transient
  • non-linear optimisation


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