Abstract
Using a well-known Passivity-based controller, in this paper is considered a stabilization scheme that explicitly includes the structure of the network and the dynamics of the power converters, features that are not usually found in the reported results. In addition, a procedure that does not rely on the solution of power flow equations is presented, guaranteeing satisfaction of load power demand with a limited capacity of some of the sources. The usefulness of the proposed control strategy is illustrated via a numerical evaluation although it is also recognized that further work is required in order to fully formalize their properties.
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