Implementation and Hardware-In-the-Loop Testing of A Wide-Area Damping Controller Based on Measurement-Driven Models

In an effort to suppress inter-area oscillations observed in the Continental Europe synchronous area system, a wide-area damping controller using a measurement-driven model was previously developed and validated by simulations. Targeting future field implementation, in this work, a hardware prototype of the controller is developed, and a hardware-in-the-loop (HIL) test setup is built to validate further the controller performance under realistic conditions considering random communication delay and occasional/persisting data loss, etc. Several auxiliary function modules, e.g., adaptive delay compensator, data buffer, and supervisory control, have been developed and integrated with the controller to improve its performance and reliability. The controller performance is validated in this HIL test setup using an actual oscillation event. Different delay compensation strategies and communication protocols are also investigated. The HIL test results have demonstrated that the developed controller effectively suppresses the target inter-area oscillations under various communication network uncertainties.