Author/Authors :
TOOSI, S. Universiti Putra Malaysia - Faculty of Engineering - Department of Electrical Electronic, Malaysia , NORHISAM, M. Universiti Putra Malaysia - Faculty of Engineering - Department of Electrical Electronic, Malaysia , NORHISAM, M. Kyushu Institute of Technology - Graduate School of Life Scienceand Systems Engineering - Department of Biological Functions and Engineering, Japan , HANAMOTO, T. Kyushu Institute of Technology - Graduate School of Life Scienceand Systems Engineering - Department of Biological Functions and Engineering, Japan , ARIS, I. Universiti Putra Malaysia - Faculty of Engineering - Department of Electrical Electronic, Malaysia , RADZI, M. A. M. Universiti Putra Malaysia - Faculty of Engineering - Department of Electrical Electronic, Malaysia , YAMADA, H. Kyushu Institute of Technology - Graduate School of Life Scienceand Systems Engineering - Department of Biological Functions and Engineering, Japan
Abstract :
Four different topologies of Multi Directional Matrix Converters (MDMC) are compared for use in low power applications. In the proposed small-scale power system the MDMC configuration with 12 bidirectional switches combined the desirable characteristics of the AC/AC conventional Matrix Converter (MC) and AC/DC single phase to single phase matrix converter. The indirect method with Space Vector Pulse Width Modulation (SVPWM) technique applied to the proposed MDMC configurations in order to control the power direction from power sources to loads. These four configurations have been simulated by MATLAB software and results are presented and discussed. Analyses and simulation results show that the MDMC with 12 bidirectional switches can run over a large input voltage and frequency range while controlling the power flow direction, compensate the fluctuating power and maintaining the excellent quality of output waveform in case of THD and DC current ripple.
Keywords :
Matrix converter , Multi directional matrix converter , SVPWM , Smallscale power system.
