Abstract
A microgrid with dynamic boundary can expand or shrink its boundary depending on available local distributed energy resources (DER). Compared to conventional microgrid with fixed boundary, it can lead to better DER utilization and improved reliability. Previous literature has only considered the operation of a microgrid with a single island that is energized by stable voltage sources. This paper introduces control function designs that can effectively synchronize islands inside a dynamic boundary microgrid, depending on the operation status of each voltage source inside the islands. An overview of the components and rationale within the control function designs is provided, and hardware-in-the-loop simulation results are analyzed to demonstrate the effectiveness of the control functions.
