Artículos de revistas
Bidirectional Multilevel Shunt Compensator With Simultaneous Functionalities Based On The Conservative Power Theory For Battery-based Storages
Registro en:
Bidirectional Multilevel Shunt Compensator With Simultaneous Functionalities Based On The Conservative Power Theory For Battery-based Storages. Inst Engineering Technology-iet, v. 9, p. 1361-1368 SEP-2015.
1751-8687
WOS:000360478500014
10.1049/iet-gtd.2014.0900
Autor
Curi Busarello
Tiago Davi; Pomilio
Jose Antenor
Institución
Resumen
Renewable energy and storage technologies have a meaningful growth in the past decades. The use of multilevel topologies within these technologies is being preferable chosen because of the better features over the conventional full bridge inverters when the applications involve high power processing. Moreover, digital control algorithms make possible power electronics converters to be operated in different manners without changing their structure. This study presents a bidirectional multilevel shunt compensator (BMSC) able to perform different and simultaneous tasks. There are seven possible modes of operation that a decision taker may demand to the BMSC. The control strategy is based on the conservative power theory. The phase-locked loop, the proportional-integral tuning procedure and how the decision taker works are presented. The seven operation modes were experimentally verified and the BMSC efficacy is proved. 9 12
1361 1368