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 language | American English |
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Journal | IEEE Transactions on Power Electronics |
Volume | 29 |
DOIs | |
State | Published - 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