Journal of Iranian Association of Electrical and Electronics Engineers
نشریه مهندسی برق و الکترونیک ایران
Journal of Iranian Association of Electrical and Electronics Engineers
Engineering & Technology
http://jiaeee.com
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admin
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10.61186/jiaeee
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jalali
1392
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gregorian
2013
10
1
10
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online
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fulltext
en
Three-Phase to Single-Phase Matrix Converters: New Topology Based on New Control Method
Three-Phase to Single-Phase Matrix Converters: New Topology Based on New Control Method
قدرت
Power
پژوهشي
Research
<p>In this paper, a new topology is proposed for three-phase to single-phase matrix converters, where more voltage levels are produced in the output in comparison with the conventional topologies. In addition, a new control method based on minimum error between the generated and the desired output voltages is proposed for three-phase to single-phase matrix converters. In the proposed control method, the output voltage is generated by the mixture of different pieces of the input voltages. In other words, by applying this method, the matrix converter operates like a multilevel converter without requiring to any extra elements. Due to the proposed control method, the desired output voltage can be generated with an acceptable accuracy even with unbalanced and significantly distorted input voltage waveforms. The other advantage of the proposed control method is reduction of number of switching which allows low speed semiconductors application in the structure of bidirectional switches required by matrix converters and also reduction in switching losses. Using this strategy, the <img alt="AWT IMAGE" height="17" src="file:///C:UsersZareAppDataLocalTempmsohtmlclip1 1clip_image002.gif" width="36" > stresses on load are significantly reduced. As a result, the electromagnetic interference (EMI) is considerably decreased in comparison with the other conventional control methods. Simulation results in PSCAD/EMTDC software and experimental results show that the proposed control method operates correctly and confirm the perfect performance of the proposed topology.</p>
<p>In this paper, a new topology is proposed for three-phase to single-phase matrix converters, where more voltage levels are produced in the output in comparison with the conventional topologies. In addition, a new control method based on minimum error between the generated and the desired output voltages is proposed for three-phase to single-phase matrix converters. In the proposed control method, the output voltage is generated by the mixture of different pieces of the input voltages. In other words, by applying this method, the matrix converter operates like a multilevel converter without requiring to any extra elements. Due to the proposed control method, the desired output voltage can be generated with an acceptable accuracy even with unbalanced and significantly distorted input voltage waveforms. The other advantage of the proposed control method is reduction of number of switching which allows low speed semiconductors application in the structure of bidirectional switches required by matrix converters and also reduction in switching losses. Using this strategy, the <img alt="AWT IMAGE" height="17" src="file:///C:UsersZareAppDataLocalTempmsohtmlclip1 1clip_image002.gif" width="36" > stresses on load are significantly reduced. As a result, the electromagnetic interference (EMI) is considerably decreased in comparison with the other conventional control methods. Simulation results in PSCAD/EMTDC software and experimental results show that the proposed control method operates correctly and confirm the perfect performance of the proposed topology.</p>
Matrix converter, Three-phase to single-phase converter, Minimum error, Bidirectional switch.
Matrix converter, Three-phase to single-phase converter, Minimum error, Bidirectional switch.
37
48
http://jiaeee.com/browse.php?a_code=A-10-1-107&slc_lang=en&sid=1
E.
Babaei
E.
Babaei
1003194753284600404
1003194753284600404
Yes
S. H.
Hosseini
S. H.
Hosseini
1003194753284600405
1003194753284600405
No
G.
B. Gharehpetian
G.
B. Gharehpetian
1003194753284600406
1003194753284600406
No