Matrix converter controlled with the direct transfer function approach : analysis, modelling and simulation
Publikation: Forskning - peer review › Tidsskriftartikel
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Matrix converter controlled with the direct transfer function approach : analysis, modelling and simulation. / Rodriguez, J.; Silva, E.; Blaabjerg, Frede; Wheeler, P.; Clare, J.; Pontt, J.
I: International Journal of Electronics, Vol. 92, Nr. 2, 2005, s. 63-85.Publikation: Forskning - peer review › Tidsskriftartikel
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TY - JOUR
T1 - Matrix converter controlled with the direct transfer function approach
T2 - analysis, modelling and simulation
A1 - Rodriguez,J.
A1 - Silva,E.
A1 - Blaabjerg,Frede
A1 - Wheeler,P.
A1 - Clare,J.
A1 - Pontt,J.
AU - Rodriguez,J.
AU - Silva,E.
AU - Blaabjerg,Frede
AU - Wheeler,P.
AU - Clare,J.
AU - Pontt,J.
PB - Taylor & Francis Ltd.
PY - 2005
Y1 - 2005
N2 - Power electronics is an emerging technology. New power circuits are invented and have to be introduced into the power electronics curriculum. One of the interesting new circuits is the matrix converter (MC), and this paper analyses its working principles. A simple model is proposed to represent the power circuit, including the input filter. The power semiconductors are modelled as ideal bidirectional switches and the MC is controlled using a direct transfer function approach. The modulation strategy of the converter is explained in a complete and clear form. The commutation problem of two switches and the generation of overvoltages are clarified. The paper also includes a soft-switching commutation method that allows for a safe commutation of the switches. Finally a complete simulation scheme, using Matlab®-Simulink®, is discussed.
AB - Power electronics is an emerging technology. New power circuits are invented and have to be introduced into the power electronics curriculum. One of the interesting new circuits is the matrix converter (MC), and this paper analyses its working principles. A simple model is proposed to represent the power circuit, including the input filter. The power semiconductors are modelled as ideal bidirectional switches and the MC is controlled using a direct transfer function approach. The modulation strategy of the converter is explained in a complete and clear form. The commutation problem of two switches and the generation of overvoltages are clarified. The paper also includes a soft-switching commutation method that allows for a safe commutation of the switches. Finally a complete simulation scheme, using Matlab®-Simulink®, is discussed.
KW - Matrix converter
KW - Modelling
KW - Simulation
KW - Teaching power conversion
KW - Circuit analysis
U2 - 10.1080/00207210512331337686
DO - 10.1080/00207210512331337686
JO - International Journal of Electronics
JF - International Journal of Electronics
SN - 0020-7217
IS - 2
VL - 92
SP - 63
EP - 85
ER -