Variable-Structure-Based Nonlinear Control for the Master VSC in DC-Energy-Pool Multiterminal Grids

Masoud Davari, Yasser Abdel Rady I. Mohamed

Research output: Contribution to journalArticlepeer-review

22 Scopus citations

Abstract

DC-energy-pool-based multiterminal grids are gaining widespread acceptance under the super- and smart-grid vision. DC-link voltage control via a master voltage-source converter (VSC) is essential to ensure stable and reliable operation of the overall multiterminal system. In such a demanding application, conventional dc-link voltage controllers, however, suffer from stability and performance issues, mainly attributed to the small-signal-based control design approach and the use of a cascaded control structure based on the power-balance framework which yields unmodeled nonlinear dynamics. To overcome these issues, this paper presents a natural-frame variable-structure-based nonlinear control system for the master VSC applied in dc-energy pool multiterminal grids. The proposed controller accounts for the complete nonlinear dynamics of the master VSC without any cascaded control structure and globally stabilizes the nonlinear dynamics via a passivity-based design approach. Analysis and comparative simulation as well as experimental results are presented to show the effectiveness of the proposed controller.
Original languageAmerican English
JournalIEEE Transactions on Power Electronics
Volume29
DOIs
StatePublished - Nov 2014

Keywords

  • DC-energy pool
  • Nonlinear control
  • Passivity-based control
  • Signma-delta modulation
  • Variable-structure control
  • Voltage-source converters

DC Disciplines

  • Electrical and Computer Engineering
  • Engineering

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