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Research Article
Enhanced Disturbance with Droop Mechanism for Facts Based PV System
J Meganathan1
K Bala Subramani2
12Assistant Professor, Department of Electrical and Electronics Engineering, Mahatma Gandhi Institute for Rural Industrialization Technology, India.
Published Online: January-February 2021
Pages: 04-07
Cite this article
No DOIReferences
[1] L. Hadjidemetriou, E. Kyriakides, and F. Blaabjerg, “A robust synchronization to enhance the power quality of renewable energy
systems,” IEEE Trans. Ind. Electron., vol. 62, no. 8, pp. 4858–4868, Aug.2015.
[2] R. A. Mastromauro, M. Liserre, T. Kerekes, and A. Dell’Aquila, “A single-phase voltage-controlled grid-connected photovoltaic
system with power qualityconditionerfunctionality,”IEEETrans.Ind.Electron.,vol.56,no.11,pp.4436–4444,Nov.2009.
[3] J. Kwon, S. Yoon, and S. Choi, “Indirect current control for seamless transfer of three-phase utility interactive inverters,” IEEE
Trans. Power Electron., vol. 27, no. 2, pp. 773–781, Feb.2012.
[4] S. Yoon, H. Oh, and S. Choi, “Controller design and implementation of Indirect current control based utility-interactive inverter
system,” IEEE Trans. Power Electron., vol. 28,no. 1, pp. 26–30, Jan. 2013..
[5] Z. Liu and J. J. Liu, “Indirect current control based seamless transfer of three-phase inverter in distributed generation,” IEEE Trans.
Power Electron., vol. 29,no.7,pp.3368–3383,Jul.2014.
[6] A. Micallef, M. Apap, C. Spiteri-Staines, J. M. Guerrero, and J. C. Vasquez, “Reactive power sharing and voltage harmonic distortion
compensation of droopcontrolledsinglephaseislandedmicrogrids,”IEEETrans.SmartGrid,vol.5,no.3,pp.1149–1158,Nov.2014.
[7] I. U. Nutkani, P. C. Loh, P. Wang, and F. Blaabjerg, “Autonomous droop scheme with reduced generation cost,” IEEE Trans. Ind.
Electron., vol. 61, no. 12, pp. 6803–6811, Dec.2014.
systems,” IEEE Trans. Ind. Electron., vol. 62, no. 8, pp. 4858–4868, Aug.2015.
[2] R. A. Mastromauro, M. Liserre, T. Kerekes, and A. Dell’Aquila, “A single-phase voltage-controlled grid-connected photovoltaic
system with power qualityconditionerfunctionality,”IEEETrans.Ind.Electron.,vol.56,no.11,pp.4436–4444,Nov.2009.
[3] J. Kwon, S. Yoon, and S. Choi, “Indirect current control for seamless transfer of three-phase utility interactive inverters,” IEEE
Trans. Power Electron., vol. 27, no. 2, pp. 773–781, Feb.2012.
[4] S. Yoon, H. Oh, and S. Choi, “Controller design and implementation of Indirect current control based utility-interactive inverter
system,” IEEE Trans. Power Electron., vol. 28,no. 1, pp. 26–30, Jan. 2013..
[5] Z. Liu and J. J. Liu, “Indirect current control based seamless transfer of three-phase inverter in distributed generation,” IEEE Trans.
Power Electron., vol. 29,no.7,pp.3368–3383,Jul.2014.
[6] A. Micallef, M. Apap, C. Spiteri-Staines, J. M. Guerrero, and J. C. Vasquez, “Reactive power sharing and voltage harmonic distortion
compensation of droopcontrolledsinglephaseislandedmicrogrids,”IEEETrans.SmartGrid,vol.5,no.3,pp.1149–1158,Nov.2014.
[7] I. U. Nutkani, P. C. Loh, P. Wang, and F. Blaabjerg, “Autonomous droop scheme with reduced generation cost,” IEEE Trans. Ind.
Electron., vol. 61, no. 12, pp. 6803–6811, Dec.2014.
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