This paper presents a distributed control scheme for reliable autonomous operation of a
hybrid three-port ac/dc/distributed storage (ds) microgrid by means of power sharing in …

System control for dc microgrids with variable generations and energy storage is proposed
in this paper. An autonomous three-level control strategy is proposed for dc microgrids with …

DC power systems can be made more reliable by considering the load as an important
energy asset. Currently the ability to manage the total system is available only through a …

The modern electric power grid is gradually evolving to include high-penetration power
electronics in a distributed architecture that will pose pressing new challenges on power …

Direct current (DC) power systems have recently been proposed as a promising technology
for distribution networks and microgrids. By eliminating unnecessary conversion stages, DC …

This article investigates distributed event-triggered control (ETC) of power buffers in a direct
current (DC) microgrid. In order to facilitate the control design, a linear interconnected …

Low-inertia dc microgrids often rely on storage devices to buffer energy and handle abrupt
load changes. An alternative approach involves the concept of power buffers, power …

Power buffers are dc-dc converters with large capacitors to provide inertia during microgrid
transients. This power buffer converter precedes the point-of-load (PoL) converter; the later …

Power buffers are power electronic converters, with large capacitors, that decouple volatile
loads and a low-inertia distribution network in a DC microgrid. In this work, a set of …

An interconnected electrical network that has electrical sources and loads makes a small-
scale power system (SSPS). These systems have low inertia, which makes the modeling …