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- Title
Finite-state model predictive power control of three-phase bidirectional AC/DC converter under unbalanced grid faults with current harmonic reduction and power compensation.
- Authors
Nan Jin; Leilei Guo; Chun Gan; Shiyang Hu; Zhifeng Dou
- Abstract
Under unbalanced grid fault conditions, the current harmonic contents of a three-phase bidirectional AC/DC converter increase significantly and twice grid-frequency ripples exist in both active power and reactive power, which influence the output power quality of the converter. Compared with the conventional finite-state model predictive direct power control (MPDPC), the MPDPC with power compensation (MPDPC-PC) method is proposed for the three-phase bidirectional AC/DC power converter to reduce harmonic currents and output power ripples without extraction of complex positive/negative sequences from the grid voltage/current and phase-locked loop. The power compensation values are expressed by grid voltages and their quadrature signals that lag 90 electrical degrees in the αβ stationary coordinates system. MPDPC-PC exhibits better performance by reducing the harmonic contents of grid currents and eliminating active power or reactive power ripples of the three-phase bidirectional AC/DC converter with flexible reactive power compensation capability. Compared with the MPDPC and linear current control schemes, experimental results confirm the effectiveness of the designed method under unbalanced grid conditions.
- Subjects
PREDICTIVE control systems; THREE-phase alternating currents; ELECTRIC current converters; ELECTRICAL harmonics; ELECTRIC power conversion
- Publication
IET Power Electronics (Wiley-Blackwell), 2018, Vol 11, Issue 2, p348
- ISSN
1755-4535
- Publication type
Article
- DOI
10.1049/iet-pel.2017.0209