Novel Hybrid Modulation Schemes Significantly Extending the Reactive Power Control Range of All Matrix Converter Topologies With Low Computational Effort
F. Schafmeister, J. Kolar, IEEE Transactions on Power Electronics 59 (2012) 194–210.
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Journal Article
| Published
| English
Author
Schafmeister, FrankLibreCat;
Kolar, Johann
Publishing Year
Journal Title
IEEE Transactions on Power Electronics
Volume
59
Issue
1
Page
194 - 210
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Schafmeister F, Kolar J. Novel Hybrid Modulation Schemes Significantly Extending the Reactive Power Control Range of All Matrix Converter Topologies With Low Computational Effort. IEEE Transactions on Power Electronics. 2012;59(1):194-210.
Schafmeister, F., & Kolar, J. (2012). Novel Hybrid Modulation Schemes Significantly Extending the Reactive Power Control Range of All Matrix Converter Topologies With Low Computational Effort. IEEE Transactions on Power Electronics, 59(1), 194–210.
@article{Schafmeister_Kolar_2012, title={Novel Hybrid Modulation Schemes Significantly Extending the Reactive Power Control Range of All Matrix Converter Topologies With Low Computational Effort}, volume={59}, number={1}, journal={IEEE Transactions on Power Electronics}, publisher={IEEE}, author={Schafmeister, Frank and Kolar, Johann}, year={2012}, pages={194–210} }
Schafmeister, Frank, and Johann Kolar. “Novel Hybrid Modulation Schemes Significantly Extending the Reactive Power Control Range of All Matrix Converter Topologies With Low Computational Effort.” IEEE Transactions on Power Electronics 59, no. 1 (2012): 194–210.
F. Schafmeister and J. Kolar, “Novel Hybrid Modulation Schemes Significantly Extending the Reactive Power Control Range of All Matrix Converter Topologies With Low Computational Effort,” IEEE Transactions on Power Electronics, vol. 59, no. 1, pp. 194–210, 2012.
Schafmeister, Frank, and Johann Kolar. “Novel Hybrid Modulation Schemes Significantly Extending the Reactive Power Control Range of All Matrix Converter Topologies With Low Computational Effort.” IEEE Transactions on Power Electronics, vol. 59, no. 1, IEEE, 2012, pp. 194–210.
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