Over the past decade, the world's electrical grid infrastructure has experienced rapid growth
in the integration of grid-edge inverter-based distributed energy resources (DERs). This has …

In remote arctic communities, where access to a bulk electrical grid interconnection is not
available, the implementation of islanded microgrids has been the most viable way to …

The rising penetration of power converters interfaced generation into the electrical grid is
leading to a paradigm shift where distributed resources are expected to provide ancillary …

The power hardware-in-the-loop (PHIL) framework provides an attractive platform for
evaluating new frameworks and power hardware including transformers, converters and …

Grid-forming inverters (GFMIs) are promising technologies that can replace some of the
capabilities traditionally provided by synchronous generators (SGs), such as inertial …

In order to address the recent inclement weather-related energy events, electricity
production is experiencing an important transition from conventional fossil fuel based …

Power-hardware-in-the-loop (PHIL) simulations of grid-forming (GFM) inverter systems
facilitate the testing of drastic scenarios, such as on-grid to off-grid transitions and islanded …

This is the final project report for the Grid Modernization Laboratory Consortium (GMLC)
Resilient Distribution System (RDS) Citadels project. The primary goal of this GMLC project …

Microgrids continue to proliferate, particularly those that rely on inverter-based resources as
the microgrid's voltage and frequency leader. Hardware-in-the-loop simulations can de-risk …

The evaluation of voltage and frequency stability of microgrids, especially of those relying
heavily on renewables and low inertia distributed energy resources, is essential for …