The performance of automated systems designed to protect infrastructure from damage during severe system conditions must be addressed to limit the scope and severity of bulk power system disturbances ...

The Control and Power Systems Laboratory (CAPS) focuses on advanced control systems, optimisation, and cybersecurity with applications to power systems, smart grids, microgrids, and power electronics ...

The rapid integration of renewable energy sources and the increasing complexity of modern power grids have accelerated the development of demand response (DR) and control strategies. These approaches ...

A new book publishing in June 2010, Modern Solutions for Protection, Control, and Monitoring of Electric Power Systems, addresses the most pressing concerns and challenges of today’s electric power ...

Explore how flexible grid frequency management can enhance reliability, affordability, and clean energy integration in modern ...

Members can download this article in PDF format. Power systems employ diodes to perform a variety of functions. For example, diodes can protect against damage due to power-source reverse-polarity ...

The proliferation of digital technologies in power distribution systems has given rise to advances on two fronts. “Digitally enabled” devices are on offer today that pack more and more functionality ...

Our research is supported by advanced laboratory infrastructure, including OPAL-RT real-time Hardware-in-the-Loop (HIL) simulation platforms and utility-grade protection and control equipment for ...

The methods of protecting electronics from circuitry failures and managing inrush current at power on has evolved significantly from a simple fuse and maybe a P-channel FET to much more sophisticated ...