Publication
Hyun Cheol Moon, June-Seok Lee, and Kyo-Beum Lee, "A Robust Deadbeat Finite Set Model Predictive Current Control Based on Discrete Space Vector Modulation for Grid-Connected Voltage Source Inverter," IEEE Transactions on Energy Conversion, vol 33, no. 4, pp. 1719-1728, Dec. 2018.
2018
PEEMS
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Oct. 4, 2023
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1. Authors: Hyun Cheol Moon, June-Seok Lee, and Kyo-Beum Lee
2. Title: A Robust Deadbeat Finite Set Model Predictive Current Control Based on Discrete Space Vector Modulation for Grid-Connected Voltage Source Inverter
3. Journal: IEEE Transactions on Energy Conversion
4. Vol/no/pp: vol 33, no. 4, pp. 1719-1728
5. Date: Dec. 2018
6. Abstract
: This paper proposes a deadbeat finite set model predictive current control based on discrete space vector modulation (DSVM) in order to achieve robust characteristics from the grid impedance variation while guaranteeing high performance of output current waveforms and a fixed switching frequency. The proposed DSVM strategy enables to obtain a large number of virtual voltage vectors without complex initialization process or lookup table, which are the drawbacks of the conventional DSVM strategies. A deadbeat technique was adopted to minimize the number of candidate voltage vectors considered in the cost function in order to avoid the high computational burden caused by considering all voltage vectors. The simulation and experimental results were presented to verify the effectiveness and performance of the proposed method using a two-level grid-connected voltage source inverter.
- Oct. 4, 2023 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 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.
- Oct. 4, 2023 June-Seok Lee, Raeho Kwak, and Kyo-Beum Lee, "Novel Discontinuous PWM Method for a Single-Phase Three-Level Neutral Point Clamped Inverter with Efficiency Improvement and Harmonic Reduction," IEEE Transactions on Power Electronics, vol. 33, no.11, pp. 9253-9266, Nov. 2018.