Title of article
Sliding mode direct control of matrix converters
Author/Authors
Pinto، نويسنده , , S.; Silva، نويسنده , , J.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2007
Pages
10
From page
439
To page
448
Abstract
The direct control problem of matrix converters with input inductive capacitive (LC)
filter using a new approach based on the sliding mode control technique is solved. This approach
allows the design of the controller considering the converter and the dynamics of its associated LC
filter. Together with the space vector representation technique, sliding mode allows the precise
determination of switching times between the bi-directional switches, thus being appropriate to
the nonlinear ON/OFF behaviour of the matrix converter power semiconductors. As the switching
occurs just in time, this technique guarantees fast response times and precise control actions, ensuring
that the output voltages and the input currents track their references and making input power
factor regulation independent of the input filter parameters. This feature has special interest in
applications requiring unity input power factor, when feeding AC drives, or applications
needing variable and accurate input power factor regulation, usually related to power quality
enhancement. The designed sliding mode controllers are tested and the obtained simulation and
experimental results show that they ensure the direct control of matrix converters over a wide
range of output frequencies, guaranteeing a leading or lagging input power factor regulation.
Journal title
IEE Proceedings Electric Power Applications
Serial Year
2007
Journal title
IEE Proceedings Electric Power Applications
Record number
403067
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