Minimisation of AC Grid Side Input Power Factor Angle for Three-phase AC to Three-phase AC Matrix Converter under Varying Load

1Basak, A., Mukherjee, K. and Syam, P. (2016). Effect of matrix converter on the speed control scheme of a grid connected doubly-fed induction generator system. In: 2016 2nd International Conference on Control, Instrumentation, Energy & Communication (CIEC), 28–30 January 2016, Kolkata, India: IEEE, pp. 319–323.Search in Google Scholar

2Blecharz, K., Wachowiak, D. and Krzemiński, Z. (2017). State Observer for Doubly-fed Induction Generator. Power Electronics and Drives, 2(37), pp. 61–75.Search in Google Scholar

3Das, D., Basak, A., Mukherjee, K. and Syam, P. (2018). Degradation of input displacement power factor by Input Current Filter and its compensation for a Matrix Converter. In: 2018 IEEE International Conference on Power Electronics, Drives and Energy Systems (PEDES), 18–21 December 2018, Chennai, India: IEEE, pp. 1–6.Search in Google Scholar

4Dasgupta, A. and Sensarma, P. (2014). Filter Design of Direct Matrix Converter for Synchronous Applications. IEEE Transactions on Industrial Electronics, 61(12), pp. 6483–6493. doi: 10.1109/TIE.2014.2317134.Open DOISearch in Google Scholar

5Gajewski, P. and Pieńkowski, K. (2016). The Performance of Direct-Driven Variable Speed Wind Turbine with PMSG and Converter Systems. Power Electronics and Drives, 1(36), pp. 79–89.Search in Google Scholar

6Gong, Z., Zhang, H., Dai, P., Sun, N. and Li, M. (2019). A Low-Cost Phase-Angle Compensation Method for the Indirect Matrix Converters Operating at the Unity Grid Power Factor. IEEE Transactions on Power Electronics, 34(10), pp. 10314–10326. doi: 10.1109/TPEL.2019.2893705.Open DOISearch in Google Scholar

7Hamouda, M., Blanchette, F. H. and Al-Haddad, K. (2016). Unity Power Factor Operation of Indirect Matrix Converter Tied to Unbalanced Grid. IEEE Transactions on Power Electronics, 31(2), pp. 1095–1107. doi: 10.1109/TPEL.2015.2421480.Open DOISearch in Google Scholar

8Huber, L. and Borojevic, D. (1995). Space Vector Modulated Three-Phase to Three Phase Matrix Converter With Input Power Factor Correction. IEEE Transactions Industry Applications, 31(6), pp. 1234–1246. doi: 10.1109/28.475693.Open DOISearch in Google Scholar

9Iwański, G. and Łuszczyk, T. (2017). Control of Doubly Fed Induction Generator at Grid Voltage Imbalance. Power Electronics and Drives, 2(37), pp. 31–48.Search in Google Scholar

10Kume, T., Yamada, K., Higuchi, T., Yamamoto, E., Hara, H., Sawa, T. and Swamy, M. M. (2007). Integrated filters and Their Combined Effects in Matrix Converter. IEEE Transactions on Industry Applications, 43(2), pp. 571–581. doi: 10.1109/TIA.2006.889971.Open DOISearch in Google Scholar

11Kwak, S. and Toliyat, A. H. (2003). An approach for matrix converter based induction motor drive with unity power factor and minimum switching losses. In: IECON’03. 29th Annual Conference of the IEEE Industrial Electronics Society (IEEE Cat. No.03CH37468), 02–06 November 2003, Roanoke, VA, USA: IEEE, pp. 2939–2944.Search in Google Scholar

12Liu, X., Loh, C. P., Wang, P., Blaabjerg, F., Tang, Y. and Al-Ammar, A. E. (2013). Distributed Generation using Indirect Matrix Converter in Reverse Power Mode. IEEE Transactions on Power Electronics, 28(3), pp. 1072–1082. doi: 10.1109/TPEL.2012.2209205.Open DOISearch in Google Scholar

13Lu, X., Sun, K., Li, G. and Huang, L. (2009). Analysis and control of input power factor in indirect Matrix Converter. In: 2009 35th Annual Conference of IEEE Industrial Electronics, 03–05 November 2009, Porto, Portugal: IEEE, pp. 207–212.Search in Google Scholar

14Milanovic, M. and Dobaj, B. (2000). Unity Input Displacement Factor Correction Principle for Direct AC to AC Matrix Converters Based on Modulation Strategy. IEEE Transactions on Circuits and Systems I: Fundamental Theory and Applications, 47(2), pp. 221–230. doi: 10.1109/81.828575.Open DOISearch in Google Scholar

15Mondal, S. and Kastha, D. (2015). Improved Direct Torque and Reactive Power Control of a Matrix-Converter-Fed Grid-Connected Doubly Fed Induction Generator. IEEE Transactions on Industrial Electronics, 62(12), pp. 7590–7598. doi: 10.1109/TIE.2015.2459056.Open DOISearch in Google Scholar

16Mondal, S. and Kastha, D. (2017). Maximum Active and Reactive Power Capability of a Matrix Converter-Fed DFIG-Based Wind Energy Conversion System. IEEE Journal of Emerging and Selected Topics in Power Electronics, 5(3), pp. 1322–1333. doi: 10.1109/JESTPE.2017.2697038.Open DOISearch in Google Scholar

17Nguyen, H. M., Lee, H. H. and Chun, W. T. (2011). Input Power Factor Compensation Algorithms using a New Direct-SVM Method for Matrix Converter. IEEE Transactions on Industrial Electronics, 58(1), pp. 232–243. doi: 10.1109/TIE.2010.2044736.Open DOISearch in Google Scholar

18Popovici, A. and Mutiu, R. (2021). Analysis of the input filter parameters for a power matrix converter. In: 2021 IEEE 27th International Symposium for Design and Technology in Electronic Packaging (SIITME), 27–30 October 2021, Timisoara, Romania: IEEEE, pp. 366–368.Search in Google Scholar

19Sofiane, O., Hatem, G. and Tahar, B. (2019). Robust control of an associated PMSG-Matrix Converter wind plant. In: 2019 1st International Conference on Sustainable Renewable Energy Systems and Applications (ICSRESA), 04–05 December 2019, Tebessa, Algeria: IEEE, pp. 1–5.Search in Google Scholar

20Xian-hui, Q., Bo, Z., Jia-xing, L., Na, H. and Jia-dan, W. (2014). Input filter design for two-stage Matrix Converter applied in aero variable-frequency power system. In: IECON 2014 - 40th Annual Conference of the IEEE Industrial Electronics Society, 29 October 2014–01 November 2014, Dallas, TX, USA: IEEE, pp. 4852–4858.Search in Google Scholar