Predictive Hybrid Control on 3-Phase 4-Wire Power Converters
In a wide variety of industrial applications, an increasing demand exists to improve the quality of the energy provided by electrical systems. Besides the reliability and availability of electric power, the power quality is now becoming an important issue. Among the causes of the poor power quality,...
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ndltd-univ-toulouse.fr-oai-oatao.univ-toulouse.fr-71772017-10-11T05:08:48Z Predictive Hybrid Control on 3-Phase 4-Wire Power Converters Rachmildha, Tri Desmana In a wide variety of industrial applications, an increasing demand exists to improve the quality of the energy provided by electrical systems. Besides the reliability and availability of electric power, the power quality is now becoming an important issue. Among the causes of the poor power quality, the harmonics are included as the reason which contributes the majority of power failures. Many efforts have been developed to solve the harmonics problem as, for instance, to install special devices such as active filters. This research work deals with the development of direct power control using the hybrid predictive control approach. The hybrid control considers each voltage vector of the converter as a discrete entity which will be applied to control a continuous linear system. One criterion to calculate the optimal voltage vector to apply will be established for the predictive control model. The optimal voltage vector to apply for each switching period, and the corresponding application time will be used to approach the actual value of the state variables of the system to the desired reference point. Two instantaneous power theories will be used, i.e. pq0 and pqr instantaneous power theory for a shunt active power filter application implemented in 3-phase 4-wire system. These instantaneous power theories have been developed to be applied to unbalanced systems using the power variables to obtain the currents that should be injected from active filters. The active filter will produce the required reactive power for the load and compensate the ripple component of active power so that the source only delivers constant active power. 2009-10-01 PhD Thesis PeerReviewed application/pdf http://oatao.univ-toulouse.fr/7177/1/rachmildha.pdf info:eu-repo/semantics/doctoralThesis info:eu-repo/semantics/openAccess Rachmildha, Tri Desmana. Predictive Hybrid Control on 3-Phase 4-Wire Power Converters. PhD, Institut National Polytechnique de Toulouse, 2009 http://ethesis.inp-toulouse.fr/archive/00001088/ http://oatao.univ-toulouse.fr/7177/ |
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In a wide variety of industrial applications, an increasing demand exists to improve the quality of the energy provided by electrical systems. Besides the reliability and availability of electric power, the power quality is now becoming an important issue. Among the causes of the poor power quality, the harmonics are included as the reason which contributes the majority of power failures. Many efforts have been developed to solve the harmonics problem as, for instance, to install special devices such as active filters. This research work deals with the development of direct power control using the hybrid predictive control approach. The hybrid control considers each voltage vector of the converter as a discrete entity which will be applied to control a continuous linear system. One criterion to calculate the optimal voltage vector to apply will be established for the predictive control model. The optimal voltage vector to apply for each switching period, and the corresponding application time will be used to approach the actual value of the state variables of the system to the desired reference point. Two instantaneous power theories will be used, i.e. pq0 and pqr instantaneous power theory for a shunt active power filter application implemented in 3-phase 4-wire system. These instantaneous power theories have been developed to be applied to unbalanced systems using the power variables to obtain the currents that should be injected from active filters. The active filter will produce the required reactive power for the load and compensate the ripple component of active power so that the source only delivers constant active power. |
author |
Rachmildha, Tri Desmana |
spellingShingle |
Rachmildha, Tri Desmana Predictive Hybrid Control on 3-Phase 4-Wire Power Converters |
author_facet |
Rachmildha, Tri Desmana |
author_sort |
Rachmildha, Tri Desmana |
title |
Predictive Hybrid Control on 3-Phase 4-Wire Power Converters |
title_short |
Predictive Hybrid Control on 3-Phase 4-Wire Power Converters |
title_full |
Predictive Hybrid Control on 3-Phase 4-Wire Power Converters |
title_fullStr |
Predictive Hybrid Control on 3-Phase 4-Wire Power Converters |
title_full_unstemmed |
Predictive Hybrid Control on 3-Phase 4-Wire Power Converters |
title_sort |
predictive hybrid control on 3-phase 4-wire power converters |
publishDate |
2009 |
url |
http://oatao.univ-toulouse.fr/7177/1/rachmildha.pdf |
work_keys_str_mv |
AT rachmildhatridesmana predictivehybridcontrolon3phase4wirepowerconverters |
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1718552981426667520 |