| Popis: |
Vienna rectifier, which is a non-generative-boost type rectifier, is widely employed in electric vehicle charging system. Nevertheless, the Vienna rectifier faces the challenge of current distortion elimination, current ripple mitigation and neutral-point (NP) voltage balance. As these problems are mutually coupled, the conventional finite control set model predictive control (FCS-MPC) methods cannot solve these problems properly. To address these issues, a three-layer double vectors FCS-MPC method is proposed. In the first layer of the proposed FCS-MPC method, the sectors are divided and the candidate vectors are selected to reduce the current distortion. In the second layer of the proposed FCS-MPC method, the double vectors with optimal duty cycles are adopted to reduce the current ripples. In the third layer of the proposed FCS-MPC method, the NP voltage is balanced by selecting the redundant P-type small vector or N-type small vector. Through the proposed method, the current distortion elimination, current ripple mitigation and NP voltage balancing are realized at the same time. The effectiveness of proposed method has been verified by simulation and experiment. |
