ONLINE SHE TECHNIQUE FOR CASCADED MULTILEVEL INVERTERS WITH ADJUSTABLE DC SOURCES, 194-199.

Piyush L. Kamani and Mahmadasraf A. Mulla

References

1. [1] S. Kouro, M. Malinowski, K. Gopakumar, et al., Recent advances and industrial applications of multilevel converters, IEEE Transactions on Industrial Electronics, 57(8), 2010, 2553–2580.
2. [2] P.L. Kamani and M.A. Mulla, Selective harmonic elimination- pulse-amplitude modulation for cascaded multilevel inverter- based STATCOM, International Journal of Power and Energy Systems, 39(4), 2019.
3. [3] M. Malinowski, K. Gopakumar, J. Rodriguez, and M.A. Perez, A survey on cascaded multilevel inverters, IEEE Transactions on Industrial Electronics, 57(7), 2010, 2197–2206.
4. [4] P.L. Kamani and M.A. Mulla, Simplified SHE pulse-amplitude modulation for multilevel inverters, IET Power Electronics, 11(14), 2018, 2191–2197.
5. [5] H.S. Patel and R.G. Hoft, Generalized techniques of harmonic elimination and voltage control in thyristor inverters: Part I–harmonic elimination, IEEE Transactions on Industrial Applications, IA-9(3), 1973, 310–317.
6. [6] M.S.A. Dahidah, G. Konstantinou, and V.G. Agelidis, A review of multilevel selective harmonic elimination PWM: formulations, solving algorithms, implementation and applications, IEEE Transactions on Power Electronics, 30(8), 2015, 4091–4106.
7. [7] K. Yang, Q. Zhang, R. Yuan, W. Yu, J. Yuan, and J. Wang, Selective harmonic elimination with Groebner bases and symmetric polynomials, IEEE Transactions on Power Electronics, 31(4), 2016, 2742–2752.
8. [8] K. Yang, Q. Zhang, J. Zhang, et al., Unified selective harmonic elimination for multilevel converters, IEEE Transactions on Power Electronics, 32(2), 2017, 1579–1590.
9. [9] J.N. Chiasson, L.M. Tolbert, K.J. McKenzie, and Z. Du, A complete solution to the harmonic elimination problem, IEEE Transactions on Power Electronics, 9(2), 2004, 491–499.
10. [10] S.S. Lee, B. Chu, N.R.N. Idris, H.H. Goh, and Y.E. Heng, Switched-battery boost-multilevel inverter with GA optimized SHEPWM for standalone application, IEEE Transactions on Industrial Electronics, 63(4), 2016, 2133–2142.
11. [11] M. Balasubramonian and V. Rajamani, Design and real-time implementation of SHEPWM in single-phase inverter using generalized Hopfield neural network, IEEE Transactions on Industrial Electronics, 61(11), 2014, 6327–6336.
12. [12] M. Sharifzadeh, H. Vahedi, R. Portillo, et al., Hybrid SHM-SHE pulse-amplitude modulation for high-power four-leg inverter, IEEE Transactions on Industrial Electronics, 63(11), 2016, 7234–7242.
13. [13] M. Etesami, N. Ghasemi, D.M. Vilathgamuwa, and W.L. Malan, Particle swarm optimisation-based modified SHE method for cascaded H-bridge multilevel inverters, IET Power Electronics, 10(1), 2017, 18–28.
14. [14] L.K. Haw, M.S.A. Dahidah, and H.A.F. Almurib, SHE-PWM cascaded multilevel inverter with adjustable DC voltage levels control for STATCOM applications, IEEE Transactions on Power Electronics, 29(12), 2014, 6433–6444.
15. [15] P.L. Kamani and M.A. Mulla, Univariate equation-based SHE-PWM for multilevel inverters, Sadhana, 44(5), 2019, 116.
16. [16] E. Suli and D.F. Mayers, An introduction to numerical analysis, 1st ed. (Cambridge, UK: Cambridge University Press, 2003).

Important Links:

• Abstract
• DOI: 10.2316/J.2020.203-0242
• From Journal (203) International Journal of Power and Energy Systems - 2020

Go Back