Improved predictive control in multi-modular matrix converter for six-phase generation systems

Distributed generation systems are emerging as a good solution as part of the response to the world’s growing energy demand. In this context multi-phase wind generation systems are a feasible option. These systems consist of renewable AC sources which requires efficient and controlled power conversi...

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Detalles Bibliográficos
Autor Principal: Toledo Gallardo, Sergio Ramón (author)
Outros autores: Maqueda Acuña, Edgar Marcial (author), Rivera, Marco (author), Gregor Recalde, Raúl Igmar (author), Wheeler, Pat (author), Romero, Carlos (author)
Formato: article
Idioma:inglés
Publicado: 2020
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Acceso en liña:http://hdl.handle.net/20.500.14066/3855
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Summary:Distributed generation systems are emerging as a good solution as part of the response to the world’s growing energy demand. In this context multi-phase wind generation systems are a feasible option. These systems consist of renewable AC sources which requires efficient and controlled power conversion stages. This work proposes a novel predictive current control strategy that takes advantage of a multi-modular matrix converter topology in the power stage of a six-phase generation system. The proposed method uses a coupling signal between the modules to decrease the error and the total harmonic distortion compared to independent control of each module. Experimental results validate the new control strategy showing the improvement regarding the target parameters.