Parameter Estimation of a Grid-Connected VSC Using the Extended Harmonic Domain
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This paper proposes a light, flexible, and yet reliable multiparametric estimation algorithm for grid-connected voltage-source-converter-based systems. This approach combines the nonlinear least squares (NLSQ) fitting algorithm and the steady-state extended harmonic domain (EHD) model to take into account the harmonic effects. The EHD model is used to take advantage of the harmonic content of the electrical signals to provide robustness and improved performance to the NLSQ estimation methodology. In addition, this harmonic formulation reduces the necessity of synchronized measurements. Details of the implementation are provided by an experimental case study, in which the grid equivalent (Thevenin voltage, inductance, and resistance), the ac-side filter (inductance and resistance), and the converter switching and conduction loss resistance are accurately estimated for three different operating conditions. © 1982-2012 IEEE.
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Harmonic analysis; modeling; parameter estimation; power system interconnection; voltage-source converter (VSC) Electric resistance; Estimation; Harmonic analysis; Inductance; Mathematical models; Models; Switches; Different operating conditions; Estimation methodologies; Integrated circuit modeling; Non-linear least squares; Parametric estimation; Power system interconnection; Synchronized measurement; Voltage source converters; Parameter estimation
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