Modeling and analysis of dual three-phase self-excited induction generator

Multiphase self-excited induction generators have recently become more interesting due to its advantages compared to its equivalent three-phase generator. However, as an induction generator, it has some disadvantages regarding poor voltage and frequency regulation under varying load and speed regime...

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Bibliografiska uppgifter
Huvudupphov: Ayala Silva, Magno Elías (author)
Övriga upphov: González, Osvaldo (author), Rodas Benítez, Jorge Esteban (author), Gregor Recalde, Raúl Igmar (author), Comparatore Franco, Leonardo David (author), Caballero Morilla, David Domingo (author)
Materialtyp: article
Språk:engelska
Utgiven: 2018
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Länkar:http://hdl.handle.net/20.500.14066/3420
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Sammanfattning:Multiphase self-excited induction generators have recently become more interesting due to its advantages compared to its equivalent three-phase generator. However, as an induction generator, it has some disadvantages regarding poor voltage and frequency regulation under varying load and speed regimes. A steady state analysis is fundamental to comprehend the machine’s behavior. This paper presents a detailed mathematical model and analysis of the dual three-phase self-excited induction generator. Simulation results are provided to show the behavior of the machine is build up voltage through different conditions, such as, variation of the excitation capacitance and variation of the mechanical rotor speed. For a more precise modeling, it is considered a non-linear variation of the magnetizing inductance.