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arXiv:2404.13376v1 Announce Type: new
Abstract: We propose a novel "cross-forming" control concept for grid-forming inverters operating against grid faults. Cross-forming refers to voltage angle forming and current magnitude forming, differing from classical grid-forming and grid-following concepts, i.e., voltage magnitude-and-angle forming and current magnitude-and-angle forming, respectively. Unlike purely grid-forming or grid-following paradigms, the cross-forming concept is motivated by device security requirements for fault current limitation and meanwhile grid code requirements for voltage angle forming preserving. We propose two feasible control strategies to realize the cross-forming concept, enabling inverters to fast-limit the fault current at a prescribed level while preserving voltage angle forming for grid-forming-type synchronization and dynamic ancillary services provision during fault ride-through. Moreover, the cross-forming control yields an equivalent system featuring a constant virtual impedance and an "equivalent normal form" of representation, making transient stability analysis tractable. The equivalent system allows us to extend previous transient stability results to encompass scenarios of current saturation. Simulations and experiments validate the efficacy of the proposed control.