A Design and Implementation of a New Control Based on Petri Nets for Three Phase PWM-Rectifier
Author:
Affiliation:
1. Akli Mohand Oulhadj University, Bouira, Algeria
2. University of Tizi Ouzou, Algeria
3. University of Derby, UK
Abstract
This article introduces a novel and effective diagram based on direct instantaneous power control (DPC) of a PWM-controlled rectifier connected to the grid without a switching table. An optimum control vector of the PWM rectifier's input voltage, which depends on the switching states determined by a Petri nets controller, is adopted. This approach limits the instantaneous detection errors of reactive and active powers, maintains the DC bus voltage at a reference level, and ensures current close to a sinusoidal wave, guaranteeing operation at a unit power factor. The instantaneous tracking errors of active and reactive powers and the angular position of the voltage are used as input variables for the proposed controller, which then selects the best control vector for the converter based on the transition of a Petri net. The significant advantages of DPC based on Petri nets compared to traditional switching tables are that hysteresis comparators are not required, and the classical regulation of active and reactive powers is achieved in all sectors. Simulation and testing findings demonstrated excellent performance, supporting the viability of the suggested control approach using Petri nets.
Publisher
IGI Global
Subject
Multidisciplinary,General Engineering,General Business, Management and Accounting,General Computer Science
Reference240 articles.
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