A NOVEL HIGH-PERFORMANCE INSTANTANEOUS RESISTANCE MPPT ALGORITHM FOR PV SYSTEMS, 208-215.

Shanifa Beevi, Johnson Mathew and Vincent George

References

  1. [1] M.A. Elgendy, B. Zahawi, S. Member, and D.J. Atkinson, Assessment of the incremental conductance maximum power point tracking algorithm, IEEE Transactions on Sustainable Energy, 4(1), 2013, 108–117.
  2. [2] T. Esram and P.L. Chapman, Comparison of photovoltaic array maximum power point tracking techniques, IEEE Transactions on Energy Conversion, 22(2), 2007, 439–449.
  3. [3] B. Subudhi and R. Pradhan, A comparative study on maximum power point tracking techniques for photovoltaic power systems, IEEE Transactions on Sustainable Energy, 4(1), 2013, 89–98.
  4. [4] B.N. Alajmi, K.H. Ahmed, S.J. Finney, and B.W. Williams, Fuzzy-logic-control approach of a modified hill-climbing method for maximum power point in microgrid standalone photovoltaic system, IEEE Transactions on Power Electronics, 26(4), 2011, 1022–1030.
  5. [5] B.S. Nishant Kumar, I. Hussain, and B.K. Panigrahi, Framework of maximum power extraction from solar PV panel using self predictive perturb and observe algorithm, IEEE Transactions on Sustainable Energy, 9(2), 2018, 895–903.
  6. [6] A. Jubael and Z. Salam, An enhanced adaptive P & O MPPT for fast and environmental conditions, IEEE Transactions on Sustainable Energy, 9(3), 2018, 1487–1496.
  7. [7] O. Lopez Santos, G. Garcia, L. Martinez Salamero, R. Giral, E. Vidal Idiarte, M.C. Merchan Riveros, and Y. Moreno Guzman, Analysis, design, and implementation of a static conductance-based MPPT methods, IEEE Transactions on Power Electronics, 34(2), 2019, 1960–1979.
  8. [8] T.S. Babu, J.P. Ram, T. Dragicevic, M. Miyatake, F. Blaabjerg, and N. Rajasekar, Particle swarm optimization based solar PV array reconfiguration of the maximum power extraction under partial shading conditions, IEEE Transactions on Sustainable Energy, 9(1), 2017, 74–85.
  9. [9] S. Selvakumar, M. Madhusmita, C. Koodalsamy, S. Pulikottil Simon, and Y. R. Sood, High-speed maximum power point tracking module for PV systems, IEEE Transactions on Industrial Electronics, 66(2), 2019, 1119–1129.
  10. [10] H. Li, D. Yang, W. Su, J. Lu, and X. Yu, An overall distribution particle swarm optimization MPPT algorithm for photovoltaic system under partial shading, IEEE Transactions on Industrial Electronics, 66(1), 2019, 265–275.
  11. [11] M. Hejri, H. Mokhtari, M.R. Azizian, M. Ghandhari, and S. Lennart, On the parameter extraction of a five-parameter double-diode model of photovoltaic cells and modules, IEEE Journal of Photovoltaics, 4(3), 2014, 915–923.
  12. [12] M.G. Villalva, J.R. Gazoli, and E.R. Filho, Comprehensive approach to modeling and simulation of photovoltaic arrays, IEEE Transactions on Power Electronics, 24(5), 2009, 1198–1208.
  13. [13] S. Beevi and V. George, A detailed investigation of PV parameter estimation under varying climatic conditions, IEEE Int. Conf. Next Generation Intelligent Systems, Kerala, India, 2016, 1–6.
  14. [14] S. Beevi, J. Mathew, and V. George, A high-performance instantaneous resistance maximum power point tracking algorithm, IEEE Seventh India Int. Conf. Power Electronics, Panjab, India, 2016, 354–358.
  15. [15] C. Won, D. Kim, W. Kim, and H. Kim, A new maximum power point tracker of photovoltaic arrays using fuzzy controller, 25th Annu. IEEE Power Electronics Specialist Conf., Seol, Korea, June 20–25, 1994, 396–403. [1] M.A. Elgendy, B. Zahawi, S. Member, and D.J. Atkinson, Assessment of the incremental conductance maximum power point tracking algorithm, IEEE Transactions on Sustainable Energy, 4(1), 2013, 108–117. [2] T. Esram and P.L. Chapman, Comparison of photovoltaic array maximum power point tracking techniques, IEEE Transactions on Energy Conversion, 22(2), 2007, 439–449. [3] B. Subudhi and R. Pradhan, A comparative study on maximum power point tracking techniques for photovoltaic power systems, IEEE Transactions on Sustainable Energy, 4(1), 2013, 89–98. [4] B.N. Alajmi, K.H. Ahmed, S.J. Finney, and B.W. Williams, Fuzzy-logic-control approach of a modified hill-climbing method for maximum power point in microgrid standalone photovoltaic system, IEEE Transactions on Power Electronics, 26(4), 2011, 1022–1030. [5] B.S. Nishant Kumar, I. Hussain, and B.K. Panigrahi, Framework of maximum power extraction from solar PV panel using self predictive perturb and observe algorithm, IEEE Transactions on Sustainable Energy, 9(2), 2018, 895–903. [6] A. Jubael and Z. Salam, An enhanced adaptive P & O MPPT for fast and environmental conditions, IEEE Transactions on Sustainable Energy, 9(3), 2018, 1487–1496. [7] O. Lopez Santos, G. Garcia, L. Martinez Salamero, R. Giral, E. Vidal Idiarte, M.C. Merchan Riveros, and Y. Moreno Guzman, Analysis, design, and implementation of a static conductance-based MPPT methods, IEEE Transactions on Power Electronics, 34(2), 2019, 1960–1979. [8] T.S. Babu, J.P. Ram, T. Dragicevic, M. Miyatake, F. Blaabjerg, and N. Rajasekar, Particle swarm optimization based solar PV array reconfiguration of the maximum power extraction under partial shading conditions, IEEE Transactions on Sustainable Energy, 9(1), 2017, 74–85. [9] S. Selvakumar, M. Madhusmita, C. Koodalsamy, S. Pulikottil Simon, and Y. R. Sood, High-speed maximum power point tracking module for PV systems, IEEE Transactions on Industrial Electronics, 66(2), 2019, 1119–1129. [10] H. Li, D. Yang, W. Su, J. Lu, and X. Yu, An overall distribution particle swarm optimization MPPT algorithm for photovoltaic system under partial shading, IEEE Transactions on Industrial Electronics, 66(1), 2019, 265–275. [11] M. Hejri, H. Mokhtari, M.R. Azizian, M. Ghandhari, and S. Lennart, On the parameter extraction of a five-parameter double-diode model of photovoltaic cells and modules, IEEE Journal of Photovoltaics, 4(3), 2014, 915–923. [12] M.G. Villalva, J.R. Gazoli, and E.R. Filho, Comprehensive approach to modeling and simulation of photovoltaic arrays, IEEE Transactions on Power Electronics, 24(5), 2009, 1198–1208. [13] S. Beevi and V. George, A detailed investigation of PV parameter estimation under varying climatic conditions, IEEE Int. Conf. Next Generation Intelligent Systems, Kerala, India, 2016, 1–6. [14] S. Beevi, J. Mathew, and V. George, A high-performance instantaneous resistance maximum power point tracking algorithm, IEEE Seventh India Int. Conf. Power Electronics, Panjab, India, 2016, 354–358. [15] C. Won, D. Kim, W. Kim, and H. Kim, A new maximum power point tracker of photovoltaic arrays using fuzzy controller, 25th Annu. IEEE Power Electronics Specialist Conf., Seol, Korea, June 20–25, 1994, 396–403.

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