Abstract:
A novel technique has been proposed to simultaneously estimate the wideband Thevenin's impedance of the grid as well as the power electronic converter from measurements s...Show MoreMetadata
Abstract:
A novel technique has been proposed to simultaneously estimate the wideband Thevenin's impedance of the grid as well as the power electronic converter from measurements sampled at the point of common coupling. The proposed algorithm is noninvasive, thus it can estimate both the impedance of the utility grid as well as the grid-tied inverter from the voltage and current measurements at the point of common coupling. It works by utilizing the harmonic information obtained from the existing voltage and current waveforms. Therefore, it can circumvent the requirement of any injecting device to estimate the wideband impedance. The algorithm works on an initial predictor generation phase, which is an initialization phase based on the design parameters, and a realtime estimation phase which runs after the inverter is commissioned. The realtime estimation phase uses the singular value decomposition technique to efficiently utilize the existing harmonic information for the prediction. The efficacy of the technique has been tested in EMTDC/PSCAD simulations of a grid-tied inverter system. Furthermore, a power hardware-in-loop experimental setup has been built to validate the simulation results, and thus, prove the efficacy of the proposed algorithm. The results show a mean square error of 0.05 and 0.5 \Omega for the grid and inverter side, respectively.
Published in: IEEE Transactions on Industrial Informatics ( Volume: 20, Issue: 1, January 2024)