One-Cycle Zero-Integral-Error Current Control for Shunt Active Power Filters
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Other documents of the author: Orts-Grau, Salvador; Balaguer, Pedro; Alfonso, j. Carlos; Martinez Marquez, Camilo Itzame; Gimeno Sales, Francisco José; Seguí Chilet, Salvador
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comunitat-uji-handle2:10234/7034
comunitat-uji-handle3:10234/8619
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Title
One-Cycle Zero-Integral-Error Current Control for Shunt Active Power FiltersAuthor (s)
Date
2020-11-26Publisher
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2079-9292Bibliographic citation
ORTS-GRAU, Salvador, et al. One-Cycle Zero-Integral-Error Current Control for Shunt Active Power Filters. Electronics, 2020, 9.12: 2008Type
info:eu-repo/semantics/articleVersion
info:eu-repo/semantics/publishedVersionSubject
Abstract
Current control has, for decades, been one of the more challenging research fields in the development of power converters. Simple and robust nonlinear methods like hysteresis or sigma-delta controllers have been ... [+]
Current control has, for decades, been one of the more challenging research fields in the development of power converters. Simple and robust nonlinear methods like hysteresis or sigma-delta controllers have been commonly used, while sophisticated linear controllers based on classical control theory have been developed for PWM-based converters. The one-cycle current control technique is a nonlinear technique based on cycle-by-cycle calculation of the ON time of the converter switches for the next switching period. This kind of controller requires accurate measurement of voltages and currents in order achieve a precise current tracking. These techniques have been frequently used in the control of power converters generating low-frequency currents, where the reference varies slowly compared with the switching frequency. Its application is not so common in active power filter current controllers due to the fast variation of the references that demands not only accurate measurements but also high-speed computing. This paper proposes a novel one-cycle digital current controller based on the minimization of the integral error of the current. Its application in a three-leg four-wire shunt active power filter is presented, including a stability analysis considering the switching pattern selection. Furthermore, simulated and experimental results are presented to validate the proposed controller. [-]
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