NEWLY DEVELOPED FIRST-ORDER SLIDING MODE OF POWER AND VOLTAGE CONTROL FOR THE DIODE-CLAMPED MULTILEVEL INVERTER

A. Elnady

References

  1. [1] G. Pepermansa, J. Driesenb, D. Haeseldonckxc, R. Belmansc, and W. D’haeseleer, Distributed generation: Definition, benefits and issues, International Journal on Energy Policy, 33(3), 2005, 787–798.
  2. [2] T. Ackermann, G. Andersson, and L. Soder, Distributed generation: A definition, International Journal of Electric Power System Research, 57(3), 2001, 195–204.
  3. [3] H.B. Puttgen, P.R. Macgregor, and F.C. Lambert, Distributed generation: Semantic hype or the dawn of a new era, IEEE Power and Energy Magazine, 99(1), 2003, 22–29.
  4. [4] W. El-Khattam and M.A. Salama, Distributed generation technologies, definitions and benefits, Electric Power System Research, 71(1), 2001, 119–128.
  5. [5] F. Blaabjerg, Z. Chen, and S.B. Kjaer, Power electronics interface in dispersed power generation systems, IEEE Transactions on Power Electronics, 19(5), 2004, 1184–1194.
  6. [6] I. Colaka, E. Kabalcib, and R. Bayindir, Review of multilevel voltage source inverter topologies and control schemes, International Journal of Energy Conversion and Management, 52(2), 2011, 1114–1128.
  7. [7] J. Rodriguez, J.S. Lai, and F.Z. Peng, Multilevel inverters: A survey of topologies controls and applications, IEEE Transactions on Industrial Electronics, 49(4), 2002, 724–738.
  8. [8] G. Carrara, S. Gardella, M. Marchesoni, R. Salutari, and G. Sciutto, A new multilevel PWM method: A theoretical analysis, IEEE Transactions on Power Electronics, 7(3), 1991, 497–505.
  9. [9] V.G. Agelidis and M. Calais, Application specific harmonic performance evaluation of multicarrier PWM techniques, IEEE Conference of Power Electronics Specialists, Japan, 1998, 1–6.
  10. [10] C.K. Sao and P.W. Lehn, Control of power management of converter fed micro-grid, IEEE Transaction on Power System, 23(3), 2008, 1088–1098.
  11. [11] W. Xuehua, R. Xinbo, B. Chenlei, P. Donghua, and X. Lin, Design of PI regulator and feedback coefficient of capacitor current for grid-connected inverter with an LCL filter in discrete-time domain, IEEE Energy Conversion Congress and Exposition, USA, 2012, 1657–1626.
  12. [12] J.G. Hwang, P.W. Lehn, and M. Winkelnkemper, A generalized class of stationary frame-current controllers for grid-connected inverter, IEEE Transactions on Power Delivery, 25(2), 2010, 2742–2751.
  13. [13] R. Teodorescu, F. Blaabjerg, M. Liserre, and P.C. Loh, Proportional resonant controllers and filters for grid-connected voltage-source converters, IEE Proceedinsg – Electric Power Applications, 153, 2006, 750–762.
  14. [14] H.S. Heo, G.H. Choe, and H.S. Mok, Robust predictive current control of a grid-connected inverter with harmonics compensation, 28th Annual IEEE Applied Power Electronics Conference and Exposition (APEC), USA, 2013, 2212–2217.
  15. [15] Y.A. Mohamed and E.F. El-Saadany,An improved dead beat control current control scheme with a novel adaptive self-tuning load model for three-phase PWM voltage source inverter, IEEE Transactions on Industrial Electronics, 54, 2007, 747–759.
  16. [16] L. Shang and J. Hu, Sliding-mode-based direct power control of grid-connected wind-turbine-driven doubly fed induction generators under unbalanced grid voltage conditions, IEEE Transactions on Energy Conversion, 27(2), 2012, 362–374.
  17. [17] J. Hu, L. Shang, Y. He, and Z.Q. Zhu, Direct active and reactive power regulation of grid-connected DC/AC converters 162 using sliding mode control approach, IEEE Transactions on Power Electronics, 26(1), 2011, 210–222.
  18. [18] F. Sebaaly, H. Vahedi, H.Y. Kanaan, N. Moubayed, and K. Al-Haddad, Design and implementation of space vector modulation-based sliding mode control for grid-connected 3L-NPC inverter, IEEE Transactions on Industrial Electronics, 63(12), 2016, 7854–7863.
  19. [19] F. Sebaaly, H. Vahedi, H.Y. Kanaan, N. Moubayed, and K. Al-Haddad, Sliding-mode current control design for a gridconnected three-level NPC inverter. Proc. of Renewable Energies for Developing Countries (REDEC), Lebanon, 2014, 1–8.
  20. [20] L. Xu, D. Zhi, and L.Z. Yao, Direct power control of gridconnected voltage source converters, Proc. of IEEE Power Engineering Society General Meeting, USA, 2007, 1–6.
  21. [21] T. Noguchi, H. Tomiki, S. Kondo, and I. Takahashi, Direct power control of PWM converter without power-source voltage sensors, IEEE Transactions on Industry Applications, 34(3), 1998, 473–480.
  22. [22] D. Zhi, L. Xu, and B.W. Williams, Improved direct power control of grid-connected DC/AC converters, IEEE Transactions on Power Electronics, 24(5), 2009, 1280–1292.
  23. [23] M.B. Delghavi and A. Yazdani, A control strategy for islanded operated of a distributed resources (DR) unit, Proc. IEEE PES General Meeting Conference, Calgary, AB, 2009, 1–8.
  24. [24] M.N. Marwali and A. Keyhani, Control of distributed generation systems-part I: Voltages and currents control, IEEE Transactions on Power Electronics, 19(6), 2004, 1541–1551.
  25. [25] D.H. Phan and S. Huang, Super-twisting sliding mode control design of three-phase inverter for microgrid distributed generation systems, Journal of Control, Automation and Electric Systems, 27(2), 2016, 179–188.
  26. [26] A. Elnady and S. Sinan, An improved second-order sliding mode control for the distributed generation system in standalone and grid-connected modes, International Transactions on Electric Energy Systems, 27(11), 2017, 1–10.
  27. [27] J.W. Jung, T.T. Vu, D.Q. Dang, T.D. Do, Y.S. Choi, and H.H. Choi, A three-phase inverter for a standalone distributed generation system: Adaptive voltage control design and stability analysis, IEEE Transactions on Energy Conversion, 29(1), 2014, 46–55.
  28. [28] R. Wai, C.Y. Lin, and Y. Huang, Design of high performance microgrid and grid-connected inverter for distributed generation applications, IEEE Transactions on Industrial Electronics, 60(4), 2013, 1542–1555.
  29. [29] T. Yu, S. Choi, and H. Kim,Indirect current control algorithm for utility interactive inverters for seamless transfer, Proc. 37th IEEE Power Electronics Specialists Conference, South Korea, 2006, 1–6.
  30. [30] Z. Yao, L. Xiao, and Y. Yan, Seamless transfer of single-phase grid interactive inverter between grid-connected and microgrid modes, IEEE Transactions on Power Electronics, 25(6), 2010, 1597–1603.
  31. [31] F. Gao and M.R. Irvani, A control strategy for a distributed generation unit in grid-connected and autonomous modes of operation, IEEE Transactions on Power Delivery, 23(2), 2008, 850–855.
  32. [32] J.Y. Hung, W. Gao, and J.C. Hung, Variable structure control: A survey, IEEE Transactions on Industrial Electronics, 40(1), 1993, 3–23.
  33. [33] A.T. Al Sakhen, A.M. Qasim, B. Qaisieh, and A. Elnady, Experimental and simulation analysis for the 5-level diode clamped inverter, Int. Conf. on Electric Power and Energy Conversion Systems, UAE, 2015, 1–4.
  34. [34] IEEE Standard 1547.4-2011-IEEE Guide for Design, Operation and Integration of Distributed Resouce Island Systems With Electric Power System.
  35. [35] IEEE Standard 1159-2009-IEEE Recommended Practice for Monitoring Electric Power Quality.

Important Links:

Go Back