A grid interactive power control unit for microgrid | Science and Technology for Energy Transition (STET)

Innovative Strategies and Technologies for Sustainable Renewable Energy and Low-Carbon Development

Open Access

Issue		Sci. Tech. Energ. Transition Volume 80, 2025 Innovative Strategies and Technologies for Sustainable Renewable Energy and Low-Carbon Development


Article Number		52
Number of page(s)		19
DOI		https://doi.org/10.2516/stet/2025032
Published online		10 December 2025

Agrawal A., Gupta R. (2018) Power management and operational planning of multiport HPCS for residential applications, IET Gener. Transm. Distrib. 12, 18, 4194–4205. [Google Scholar]
Lin C.-C., Shen H.-Y., Peng Y.-C., Liu W.-Y. (2025) Residential energy considering renewable portfolio standards and tradable green certificates, Renewab. Sustain. Energy Rev. 207, 114981. [Google Scholar]
Shakeel S.R., Takala J., Shakeel W. (2016) Renewable energy sources in power generation in Pakistan, Renewab. Sustainab. Energy Rev. 64, 421–434. [Google Scholar]
Hassan Q., Sameen A.Z., Salman H.M., Jaszczur M., Al-Jiboory A.K. (2023) Hydrogen energy future: advancements in storage technologies and implications for sustainability, J. Energy Storage 72B, 108404. [Google Scholar]
Rocabert J., Luna A., Blaabjerg F., Rodriguez P. (2012) Control of power converters in AC microgrids, IEEE Trans. Power Electron. 27, 11, 4734–4749. [CrossRef] [Google Scholar]
Azimi S.M., Hamzeh M. (2020) Adaptive interconnection and damping assignment passivity-based control of interlinking converter in hybrid AC/DC grids, IEEE Syst J. 14, 4, 4718–4725. [Google Scholar]
Tani A., Camara M.B., Dakyo B. (2015) Energy management in the decentralized generation systems based on renewable energy-ultracapacitors and battery to compensate the wind/load power fluctuations, IEEE Trans. Ind. Appl. 51, 2, 1817–1827. [Google Scholar]
Kim S.T., Bae S., Kang Y.C., Park J.W. (2015) Energy management based on the photovoltaic HPCS with an energy storage device, IEEE Trans. Ind. Electron. 62, 7, 4608–4617. [Google Scholar]
Talapur G.G., Suryawanshi H.M., Xu L., Shitole A.B. (2018) A reliable micro-grid with seamless transition between grid connected and islanded mode for residential community with enhanced power quality, IEEE Trans. Ind. Appl. 54, 5, 5246–5255. [CrossRef] [Google Scholar]
Mohammadi F., Ivatloo B.M., Gharehpetian G.B., Ali M.H., Wei W., Erdinc O., Shirkhani M. (2022) Robust control strategies for microgrids: A review, IEEE Syst. J. 16, 2, 2401–2412. [Google Scholar]
Aviles D.A., Pascual J., Guinjoan F., Marroyo L., Gutierrez G.G., Orquera R.G., Proano J.L., Sanchis P., Motoasca T.E. (2021) An energy management system design using fuzzy logic control: Smoothing the grid power profile of a residential electro-thermal microgrid, IEEE Access 9, 25172–25188. [Google Scholar]
Patel M.R. (2006) Wind and solar power systems: design, analysis and operation, Vol. 2, Taylor & Francis, New York, NY, USA. [Google Scholar]
Yang P., Xia Y., Yu M., Wei W., Peng Y. (2018) A decentralized coordination control method for parallel bidirectional power converters in a hybrid ACDC microgrid, IEEE Trans. Ind. Electron. 65, 8, 6217–6228. [Google Scholar]
Augustine S., Mishra M.K., Lakshminarasamma N. (2017) Adaptive droop control strategy for load sharing and circulating current minimization in low-voltage standalone DC microgrid, IEEE Trans. Sustain. Energy 6, 1, 132–141. [Google Scholar]
Biglarahmadi M., Ketabi A., Baghaee H.R., Guerrero J.M. (2022) Integrated nonlinear hierarchical control and management of hybrid AC/DC microgrids, IEEE Syst. J. 16, 1, 902–913. [Google Scholar]
Rana M.J., Abido M.A. (2017) Energy management in DC microgrid with energy storage and model predictive controlled AC-DC converter, IET Gener. Transm. Distrib. 11, 15, 3694–3702. [Google Scholar]
Mohanty R., Pradhan A.K. (2019) DC ring bus microgrid protection using the oscillation frequency and transient power, IEEE Syst. J. 13, 1, 875–884. [Google Scholar]
Agrawal A., Gupta R. (2019) Hybrid DC-AC zonal microgrid enabled by solid-state transformer and centralized ESD integration, IEEE Trans. Ind. Electron. 66, 11, 9097–9107. [Google Scholar]
De D., Ramanarayanan V. (2010) Decentralized parallel operation of inverters sharing unbalanced and nonlinear loads, IEEE Trans. Power Electron. 25, 12, 3015–3025. [Google Scholar]
Jain S., Ahuja R.K., Gupta A., Arya Y. (2025) Hybrid intelligent h-AFSA-ANN controller for the SPV-BESS-DG-based DC microgrid integrated system, Electr. Eng. 107, 7, 8271–8296. [Google Scholar]
Li Y., He L., Liu F., Li C., Cao Y., Shahidehpour M. (2019) Flexible voltage control strategy considering distributed energy storages for DC distribution network, IEEE Trans. Smart Grid 10, 1, 163–172. [Google Scholar]
Kakigano H., Miura Y., Ise T. (2010) Low-voltage bipolar-type DC microgrid for super high quality distribution, IEEE Trans. Power Electron. 25, 12, 3066–3075. [Google Scholar]
Li Z., Shahidehpour M. (2017) Small-signal modelling and stability analysis of hybrid AC/DC microgrids, IEEE Trans. Smart Grid 10, 2, 2080–2095. [Google Scholar]
Zarei A., Mousavi Y., Mosalanezhad R., Atazadegan M.H. (2020) Robust voltage control in inverter-interfaced microgrids under plug-and-play functionalities, IEEE Syst. J. 14, 2, 2813–2824. [Google Scholar]
Koutroulis E., Blaabjerg F. (2015) Overview of maximum power point tracking techniques for photovoltaic energy production systems, Electr. Power Compon. Syst. 43, 12, 1329–1351. [Google Scholar]
Xia Y., Ahmed K.H., Williams B.W. (2011) A new maximum power point tracking technique for permanent magnet synchronous generator based wind energy conversion system, IEEE Trans. Power Electron. 26, 12, 3609–3620. [Google Scholar]
Dalala Z.M., Zahid Z.U., Yu W., Cho Y., Lai J.S. (2013) Design and analysis of an MPPT technique for small-scale wind energy conversion systems, IEEE Trans. Energy Convers. 28, 3, 756–767. [Google Scholar]

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