 Energy communities are expected to revolutionize the energy market by providing more efficient and reliable electricity supply. To achieve this goal, new technological advances must be made in order to optimize the operation of low-voltage grids. In particular, end users should be aggregated into micro grids, allowing for physical interactions between them and enabling the coordination of power sources and energy storage systems. Additionally, meshed network topologies will allow for multiple paths for power flow, improving overall performance in terms of power quality, efficiency, and resiliency to transient events and faults. Furthermore, smart control and meshed networks can provide ubiquitous control over the power flow, as well as active fault clearance and isolation of subgrids without tripping circuit breakers. A control approach is proposed that does not require modifications to existing hardware, but instead relies on local measurements and a revision of control firmware. This approach has been tested using simulations of a standard micro grid under various operating conditions, demonstrating its potential to improve micro grid performance. This article was authored by Paolo Tindi and Tommaso Caldognano.