A Novel Continuous Control Set Model Predictive Control for LC-Filtered Three-Phase Four-Wire Three-Level Voltage-Source Inverter

In this article, a novel continuous control set model predictive control (CCS-MPC) is proposed for an LC-filtered three-phase three-level four-wire voltage-source inverter (3P-4W-3L-VSI). The proposed MPC algorithm provides independent control of each phase of the 3P-4W-3L-VSI under various unbalanced load conditions, which shows superior performance under unbalanced loads. Furthermore, different from conventional MPC methods, the CCS-MPC achieves fixed switching frequency, hence simplifying the design of LC filters. In addition, dc offsets are introduced to the proposed modulation to effectively balance the neutral-point voltage of the 3P-4W-3L-VSI. Experimental results are presented to verify the effectiveness of the proposed MPC algorithm.

Automated summary

This article proposes a novel continuous control set model predictive control (CCS-MPC) algorithm for an LC-filtered three-phase three-level four-wire voltage-source inverter (3P-4W-3L-VSI). The algorithm achieves independent control of each phase of the 3P-4W-3L-VSI under various unbalanced load conditions, demonstrating superior performance under unbalanced loads. Unlike conventional MPC methods, CCS-MPC achieves fixed switching frequency, simplifying the design of LC filters. Additionally, dc offsets are introduced to effectively balance the neutral-point voltage of the 3P-4W-3L-VSI. Experimental results confirm the effectiveness of the proposed MPC algorithm.