Juan C. Vasquez

TL;DR: In this paper, a simple and effective autonomous current-sharing controller for parallel three-phase inverters is proposed, which provides faster response and better accuracy in contrast to the conventional droop control, since this novel approach does not require any active or reactive power calculations.

TL;DR: A rule-based adaptive protection scheme using machine-learning methodology for microgrids in extensive distribution automation (DA) based on the state recognition in the algorithm, adaptive reconfigurations can be implemented with enhanced decision-making to modify the protective settings and the network topology to ensure the reliability of the intelligent operation.

TL;DR: A novel distributed active synchronization strategy is proposed, which takes into account not only the fundamental component, but also positive and negative sequences of the harmonic components, so that a seamless reconnection to the main grid can be performed.

TL;DR: This paper presents an overview of the LVDC distribution systems used in residential applications, and different power architectures and topologies are discussed.

TL;DR: In this article, the authors proposed a hierarchical control to realize optimal unbalance compensation for satisfying the power quality requirements in different areas, where primary and secondary controllers are applied to realize unbalance compensated for critical bus, and at the same time, to make distributed generators equally share the compensation efforts.