RT Conference Proceedings
T1 Matrix converter Double Sided Space Vector Modulation: 												A fast way to synthesize via S-Function
A1 Andreu, J.
A1 De Alegría, Martínez
A1 Martín, J. L.
A1 Ceballos, S.
A1 Gabiola, I.
AB Matrix Converters present several advantages in some power electronic applications, but their control is a complicated task. Matlab-Simulink is a very useful tool for the developing of control algorithms for power converters. In this paper, an exhaustive analysis of Double Sided Space Vector Modulation for a Matrix Converter is presented. The synthesis of the complex Space Vector Modulator is done using a single SFunction, thus simplifying and accelerating the implementation and debugging of the controller of a Matrix Converter. The implementation procedure of the modulation strategy presents several important advantages, mainly, an acceleration of the time dedicated to the implementation of the modulator, a more reliable design, because the debugging is straightforward, and faster simulation times of the entire platform. The simulation method allows an easy way to synthesize the modulation algorithm in a FPGA, in this way, this paper contributes to the development of the IPMs. Finally, the results of applying the present Space Vector Modulator for the control of a Doubly Fed Induction Generator (DFIG) are presented, showing that complex control of Matrix Converter is minimized.
SN 1424404975
SN 9781424404971
YR 2006
FD 2006
LK https://hdl.handle.net/11556/2624
UL https://hdl.handle.net/11556/2624
LA eng
NO Andreu , J , De Alegría , M , Martín , J L , Ceballos , S & Gabiola , I 2006 , Matrix converter Double Sided Space Vector Modulation : A fast way to synthesize via S-Function . in International Symposium on Industrial Electronics 2006, ISIE 2006 . , 4078183 , IEEE International Symposium on Industrial Electronics , vol. 2 , pp. 779-784 , International Symposium on Industrial Electronics 2006, ISIE 2006 , Montreal, QC , Canada , 9/07/06 . https://doi.org/10.1109/ISIE.2006.295733
NO conference
DS TECNALIA Publications
RD 28 jul 2024