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Theory and Experimental Validation of Two Techniques for Compensating VT Nonlinearities

Giovanni D’Avanzo, Marco Faifer, Carmine Landi, Christian Laurano, Palma Sara Letizia, Mario Luiso, Roberto Ottoboni, Sergio Toscani

2022IEEE Transactions on Instrumentation and Measurement23 citationsDOIOpen Access PDF

Abstract

Inductive instrument transformers (ITs) are still the most used voltage and current sensors in power systems. Among the numerous applications that require their use, one of the most important is surely represented by harmonics measurement. In this case, the recent literature shows that, since they suffer from both a filtering behavior due to their dynamics and from nonlinear effects produced by their iron core, they can introduce errors up to some percent. This article wants to deeply investigate, in the very same experimental conditions, about the performance of two digital signal processing techniques, recently introduced for the improvement of harmonics measurements performed through ITs, namely, SINusoidal characterization for DIstortion COMPensation (SINDICOMP) and compensation of harmonic distortion through polynomial modeling in the frequency domain (PHD). These methods have been applied to two different voltage transformers, having different specifications, by using two measurement setups based on different architectures. The impact of the voltage generator employed during the identification on the achieved accuracy is theoretically and experimentally evaluated. Modified versions of SINDICOMP and PHD compensation, which are more robust against nonidealities of the measurement setup, are presented. The performances of the techniques are evaluated by adopting voltage waveforms similar to those that can be encountered during the normal operation in a real distribution grid.

Topics & Concepts

Computer scienceControl theory (sociology)Electronic engineeringReliability engineeringEngineeringControl (management)Artificial intelligenceSensor Technology and Measurement SystemsAdvanced Sensor Technologies ResearchElectrical Contact Performance and Analysis