article published Frank Schafmeister author 71291 Johann Kolar author 52 department IEEE2012 eng 591194 - 210 yes 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.” <i>IEEE Transactions on Power Electronics</i> 59, no. 1 (2012): 194–210. F. Schafmeister, J. Kolar, IEEE Transactions on Power Electronics 59 (2012) 194–210. Schafmeister, F., &#38; Kolar, J. (2012). Novel Hybrid Modulation Schemes Significantly Extending the Reactive Power Control Range of All Matrix Converter Topologies With Low Computational Effort. <i>IEEE Transactions on Power Electronics</i>, <i>59</i>(1), 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,” <i>IEEE Transactions on Power Electronics</i>, vol. 59, no. 1, pp. 194–210, 2012. Schafmeister F, Kolar J. Novel Hybrid Modulation Schemes Significantly Extending the Reactive Power Control Range of All Matrix Converter Topologies With Low Computational Effort. <i>IEEE Transactions on Power Electronics</i>. 2012;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.” <i>IEEE Transactions on Power Electronics</i>, vol. 59, no. 1, IEEE, 2012, pp. 194–210. 303242022-03-15T18:06:54Z2022-03-15T18:07:12Z