Protection of medium voltage DC power systems against ground faults and negative incremental impedances

@article{Ghisla2010ProtectionOM,
  title={Protection of medium voltage DC power systems against ground faults and negative incremental impedances},
  author={U. Ghisla and I. Kondratiev and Roger A. Dougal},
  journal={Proceedings of the IEEE SoutheastCon 2010 (SoutheastCon)},
  year={2010},
  pages={259-263}
}
Widespread concern about how to protect DC power distribution systems against high fault currents, and how to compensate for instabilities brought on by constant power load characteristics, has prompted us to develop a new approach for protecting these systems. Our approach employs a compact multiple switching topology converter, which fulfills three functions: it limits the line current to a predetermined value (which could be dynamically set); it works as buffer during short-duration faults… CONTINUE READING

References

Publications referenced by this paper.
Showing 1-9 of 9 references

Krein, “Optimal geometric control of power buffers

  • P.T.W.W. Weaver
  • IEEE transactions on power electronics”,
  • 2009
3 Excerpts

Ultracapacitors for PHEV: Application and Systems Engineering Perspective

  • J. M. Miller
  • IEEE Southeastern Michigan Section, Detroit, MI,
  • 2008
1 Excerpt

Protection of VSC-multi-terminal HVDC against DC faults

  • L. Tang, B. T. Ooi
  • Power Electronics Specialists Conference,
  • 2002
3 Excerpts

Three-dimensional stability analysis of DC power electronics based systems”, Power Electronics Specialists Conference, PESC

  • S. D. Sudhoff, S. F. Glover
  • IEEE 31st Annual,
  • 2000
1 Excerpt

Three - dimensional stability analysis of DC power electronics based systems ”

  • S. F. Glover, P. T. Lamm, D. H. Schmucker, D. E. Delisle, S. D. Sudhoff

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