Enhanced Flat Window-Based Synchrophasor Measurement Algorithm for P Class PMUs

Enhanced Flat Window-Based Synchrophasor Measurement Algorithm for P Class PMUs

Blog Article

Accurate and fast synchrophasor measurement, especially under dynamics and distortions, is crucial for control and protection of power grid.The dynamics and distortions in the power grid may occur simultaneously, which increase the complexity of the problem.To address this issue, an enhanced flat window-based P class synchrophasor measurement algorithm (EFW-PSMA) is proposed in this paper.Firstly, an EFW is design based on the least square (LS) approach.

Secondly, the EFWs white gold new victory theater are adopted as the low pass filters (LPFs) in the EFW-PSMA structure to extract the fundamental component.Finally, the frequency and rate of change of frequency (ROCOF) are estimated based on the LS approach.The EFW-PSMA has a simple shades 4nch implementation structure and low computation complexity.Theoretical analysis and simulation results verify the superiority of the method, especially under stressed grid conditions, where several types of disturbances occur simultaneously.

The maximum total vector error (TVE) is 0.3% under the most stressed conditions that all the disturbances specified in the benchmark tests specified in the IEC/IEEE 60255-118-1 occur simultaneously.It means that the EFW-PSMA could be used for the protection applications of the synchrophasor measurement algorithm, which is important for PMUs to fast response in the control and protection actions in order to avert a possible collapse or other abnormal conditions.