A Region-Folding Electromagnetic Transient Simulation Approach for Large-Scale Power Electronics System
Cheng Jin, Zhendong Ji, Kangli Liu, Wenzhe Chen, Jianfeng Zhao
Abstract
This article proposes a region-folding electromagnetic transient simulation approach for large-scale power electronics systems to boost simulation speed. In the region-folding approach, the loop tear method is proposed to decouple the connections among power electronics blocks, the grouping and pre-calculating method of identical structural blocks is proposed to avoid computing the inverse of matrices repeatedly, and the global simultaneous response procedure is proposed to handle the simultaneous and multiple switching events. The implementation of the proposed approach is combined with high-performance parallelization technology to shorten the simulation time. The modular multilevel converter based high voltage direct current model and dc photovoltaic power station model are simulated respectively to validate the accuracy and efficiency. Simulation results indicate that the proposed approach has the same accuracy as other electromagnetic transients commercial software with better efficiency.