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Abstract
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| A new strategy framed in the field of model predictive direct current control (MPDCC) applied to surface permanent magnet synchronous generator (SPMSG) is presented. Compared to conventional space vector control systems, the proposed predictive strategy reduces the number of P-I regulators and maintains the advantages of a fixed switching frequency. It also performs a faster response providing a smooth electromagnetic torque and smooth active and reactive power control. In wave energy conversion, the new strategy provides the needed fast torque control to handle the changing torque demand of most of power take-off (PTO) systems present in wave energy converters (WECs). The proposed system is firstly analyzed by means of simulations in MATLAB Simulink environment and later on tested in a customized SPMSG based laboratory setup in order to check its capabilities in the frame of the control of wave energy power plants, specifically, an oscillating water column (OWC) based power plant. | |
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International
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Si |
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JCR
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Si |
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Title
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Ieee Transactions on Power Electronics, Major revision, under review, TPEL-Reg-2018-05-0997 |
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ISBN
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0885-8993 |
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Impact factor JCR
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7,151 |
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Impact info
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Datos JCR del año 2016 |
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