Abstract
In this paper, the modeling, hardware evaluation and simulation of PV solar power converter are discussed. The DC is converted into AC by grid-tied PV converter & then connected to a power grid. Voltage profile can be modified by connecting a known load of solar System. Hence, the system still experiences over wear to solar PV range connected is a way excess than local loads. The controlling of power factor also seems to enhance the voltage profile all over the feeder.
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References
Yi JLM, Naayagi RT, Logenthiran T Modelling and implementation of single phase dual stage grid-tied solar power inverter. IEEE
Iqbal A et al (eds) (2020) Soft computing in condition monitoring and diagnostics of electrical and mechanical systems, vol 1096. In: Advances in intelligent systems and computing. Springer, Singapore. https://doi.org/10.1007/978-981-15-1532-3
Iqbal A et al (eds) (2020) Meta heuristic and evolutionary computation: algorithms and applications, vol 1096. In: Studies in computational intelligence. Springer, Singapore. https://www.springer.com/gp/book/9789811575709
Norhasmi NNF, Raveendran SK, Ramachandaramurthy VK Power factor control of solar photovoltaic inverter as solution to overvoltage
Allamehzadeh H Solar energy overview and maximizing power output of a solar array using sun trackers
Musunuri S, Nirantare P Multi-functional solar inverter for grid harmonic elimination
Camm EH, Williams E Solar power plant design and interconnection
Yang X, Zhai Y Design of inverter power supply for household solar power generation in pastoral area
Richard J Bravo Solar PV power plants harmonics impacts
Nirmal Mukundan CM, Jayaprakash P Cascaded H-bridge multilevel inverter based grid integration of solar power with PQ improvement
Sondawale SR, Jagtap PP, Tarnekar SG Synchronization of solar inverter with power grid
Pal D, Bajpai P Active and reactive power control in three phase solar PV inverter using modified IC method
Phannil N, Jettanasen C, Ngaopitakkul A Power quality analysis of grid connected solar power inverter
Anand I, Subramaniam S, Biswas D, Kaliamoorthy M (2018) Dynamic power management system employing single stage power converter for standalone solar PV applications
Shao H, Li X, Tsui CY, Ki WH (2014) A novel single-inductor dual-input dual-output dc-dc converter with pwm control for solar energy harvesting system. IEEE Trans Very Large Scale Integr (VLSI) Syst 22(8):1693–1704
Babaei E, Abbasi O (2016) Structure for multi-input multi-output dcdc boost converter. IET Power Electron 9(1):9–19
de Brito MAG, Galotto L, Sampaio LP, e Melo GDA, Canesin CA (2013) Evaluation of the main MPPT techniques for photovoltaic applications. IEEE Trans Indust Electron 60(3):1156–1167
Luque A, Hegedus S (2011) Handbook of photovoltaic science and engineering. Wiley
Jongerden MR, Haverkort BR (2009) Which battery model to use? IET Softw 3(6):445–457
Huang MH, Chen KH (2009) Single-inductor multi-output (simo) dc-dc converters with high light-load efficiency and minimized crossregulation for portable devices. IEEE J Solid-State Circuits 44(4):1099–1111
Nami A, Zare F, Ghosh A, Blaabjerg F (2010) Multi-output dc-dc converters based on diode-clamped converters configuration: topology and control strategy. IET Power Electron 3(2):197–208
Khaligh A, Cao J, Lee Y-J (2009) A multiple-input dc–dc converter topology. IEEE Trans Power Electron 24(3):862–868
Rehman Z, Al-Bahadly I, Mukhopadhyay S (2015) Multiinput dc–dc converters in renewable energy applications–an overview. Renew Sustain Energy Rev 41:521–539
Keyhani H, Toliyat HA (2013) A ZVS single-inductor multi-input multi-output dc-dc converter with the step up/down capability. In: 2013 IEEE energy conversion congress and exposition, pp 5546–5552, Sept 2013
Feshara HF, Ibrahim AM, El-Amary NH, Sharaf SM (2019) Performance evaluation of variable structure controller based on sliding mode technique for a grid-connected solar network
Haura R Jr, Casaro MM Single-phase dual-stage isolated multilevel inverter applied to solar energy processing
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Singh, P.K., Deo, R.N., Vajpayee, V., Verma, V., Bajpai, V. (2021). Case Study of Synchronization of Solar Power Converter. In: Iqbal, A., Malik, H., Riyaz, A., Abdellah, K., Bayhan, S. (eds) Renewable Power for Sustainable Growth. Lecture Notes in Electrical Engineering, vol 723. Springer, Singapore. https://doi.org/10.1007/978-981-33-4080-0_47
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DOI: https://doi.org/10.1007/978-981-33-4080-0_47
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