International Journals June-Hee Lee, June-Seok Lee, Hyun-Cheol Moon, and Kyo-Beum Lee, "An Improved Finite-Set Model Predictive Control Based on Discrete Space Vector Modulation Methods for Grid-Connected Three-Level Voltage Source Inverter," IEEE Journal of Emerging and Selected Topics in Power Electronics, vol. 6, no. 4, pp. 1744–1760, Dec. 2018. -SCIE
2018
본문
This paper proposes an improved finite-set model predictive control (FS-MPC) to reduce current ripples and balance the neutral-point
voltage for grid-connected three-level voltage source inverter. The proposed FS model predictive current control is based on the
discrete space vector modulation (DSVM) to synthesize various voltage vectors. The proposed DSVM method enables to calculate all
of the virtual voltage vector values immediately without the lookup table. To overcome the excessive computation burden problem,
the optimal region determination strategy is presented in order to use only minimum number of voltage vectors for the cost function
calculation. To balance the neutral-point voltage, the proposed offset voltage injection (OVI) method based on the FS-MPC is
introduced in this paper. Various offset voltage values are obtained and an optimal offset voltage value is determined using the
MPC algorithm. Since the proposed control method is based on space vector diagram without being restricted by the switching states,
it can be easily applied to a multilevel system or other applications. The simulation and experiment results are presented to validate
the effectiveness and performance of the proposed method using the grid-connected three-level T-type voltage source inverter.
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