On the Capability of Cascaded H-Bridge Converter-Based Energy Systems to Tolerate Intraphase Active Power Imbalance

Enrique Nunes; Gaowen Liang; Ezequiel Rodriguez; Glen G. Farivar; Georgios Konstantinou; Amer Mohammad Yusuf Mohammad Ghias; Salvador Ceballos; Josep Pou; Leopoldo Garcia Franquelo; Jose Rodriguez

doi:10.1109/OJIES.2025.3635635

On the Capability of Cascaded H-Bridge Converter-Based Energy Systems to Tolerate Intraphase Active Power Imbalance

Enrique Nunes
, Gaowen Liang^*
, Ezequiel Rodriguez
, Glen G. Farivar
, Georgios Konstantinou
, Amer Mohammad Yusuf Mohammad Ghias
, Salvador Ceballos
, Josep Pou
, Leopoldo Garcia Franquelo
, Jose Rodriguez

^*Autor correspondiente de este trabajo

Nanyang Technological University
University of Melbourne
University of New South Wales
Basque Research and Technology Alliance (BRTA)
City University of Hong Kong
School of Astronautics, Harbin Institute of Technology
Universidad San Sebastián

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

1 Cita (Scopus)

3 Descargas (Pure)

Resumen

The cascaded H-bridge (CHB) converter is an attractive topology to interface energy sources, such as battery energy storage or photovoltaic systems, with the medium-voltage grid. The submodules in CHB converter-based energy systems unavoidably process different active power during operation. However, there exist inherent limits that prohibit an arbitrarily imbalanced intraphase active power distribution. Failing to consider such limits can result in output current distortion and capacitor voltage deviation, which can jeopardize the CHB converter. Crucially, these limits vary depending on the modulation method utilized, whose selection is, thus, of utmost relevance. Accordingly, this article derives and compares the feasible intraphase active power imbalance range of existing modulation methods. The analysis is experimentally corroborated in a 1-kVA single-phase CHB converter with six submodules per phase. Based on the comparison, suggestions on which modulation methods are preferred for different CHB applications are provided.

Idioma original	Inglés
Páginas (desde-hasta)	1798-1820
Número de páginas	23
Publicación	IEEE Open Journal of the Industrial Electronics Society
Volumen	6
DOI	https://doi.org/10.1109/OJIES.2025.3635635
Estado	Publicada - 2025
Publicado de forma externa	Sí

ODS de las Naciones Unidas

Este resultado contribuye a los siguientes Objetivos de Desarrollo Sostenible

ODS 7: Energía asequible y no contaminante

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10.1109/OJIES.2025.3635635

On_the_Capability_of_Cascaded_H-Bridge_Converter-Based_Energy_Systems_to_Tolerate_Intraphase_Active_Power_ImbalanceVersión publicada final, 9,74 MBLicencia: CC BY

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Nunes, E., Liang, G., Rodriguez, E., Farivar, G. G., Konstantinou, G., Ghias, A. M. Y. M., Ceballos, S., Pou, J., Franquelo, L. G., & Rodriguez, J. (2025). On the Capability of Cascaded H-Bridge Converter-Based Energy Systems to Tolerate Intraphase Active Power Imbalance. IEEE Open Journal of the Industrial Electronics Society, 6, 1798-1820. https://doi.org/10.1109/OJIES.2025.3635635

@article{35bd14a1e3204b439bb906d6ba78c020,

title = "On the Capability of Cascaded H-Bridge Converter-Based Energy Systems to Tolerate Intraphase Active Power Imbalance",

abstract = "The cascaded H-bridge (CHB) converter is an attractive topology to interface energy sources, such as battery energy storage or photovoltaic systems, with the medium-voltage grid. The submodules in CHB converter-based energy systems unavoidably process different active power during operation. However, there exist inherent limits that prohibit an arbitrarily imbalanced intraphase active power distribution. Failing to consider such limits can result in output current distortion and capacitor voltage deviation, which can jeopardize the CHB converter. Crucially, these limits vary depending on the modulation method utilized, whose selection is, thus, of utmost relevance. Accordingly, this article derives and compares the feasible intraphase active power imbalance range of existing modulation methods. The analysis is experimentally corroborated in a 1-kVA single-phase CHB converter with six submodules per phase. Based on the comparison, suggestions on which modulation methods are preferred for different CHB applications are provided.",

keywords = "Battery energy storage systems (BESSs), cascaded H-bridge (CHB) converter, modulation, photovoltaic (PV) systems, power imbalance tolerance, renewable energy sources",

author = "Enrique Nunes and Gaowen Liang and Ezequiel Rodriguez and Farivar, \{Glen G.\} and Georgios Konstantinou and Ghias, \{Amer Mohammad Yusuf Mohammad\} and Salvador Ceballos and Josep Pou and Franquelo, \{Leopoldo Garcia\} and Jose Rodriguez",

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year = "2025",

doi = "10.1109/OJIES.2025.3635635",

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pages = "1798--1820",

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Nunes, E, Liang, G, Rodriguez, E, Farivar, GG, Konstantinou, G, Ghias, AMYM, Ceballos, S, Pou, J, Franquelo, LG & Rodriguez, J 2025, 'On the Capability of Cascaded H-Bridge Converter-Based Energy Systems to Tolerate Intraphase Active Power Imbalance', IEEE Open Journal of the Industrial Electronics Society, vol. 6, pp. 1798-1820. https://doi.org/10.1109/OJIES.2025.3635635

TY - JOUR

T1 - On the Capability of Cascaded H-Bridge Converter-Based Energy Systems to Tolerate Intraphase Active Power Imbalance

AU - Nunes, Enrique

AU - Liang, Gaowen

AU - Rodriguez, Ezequiel

AU - Farivar, Glen G.

AU - Konstantinou, Georgios

AU - Ghias, Amer Mohammad Yusuf Mohammad

AU - Ceballos, Salvador

AU - Pou, Josep

AU - Franquelo, Leopoldo Garcia

AU - Rodriguez, Jose

PY - 2025

Y1 - 2025

N2 - The cascaded H-bridge (CHB) converter is an attractive topology to interface energy sources, such as battery energy storage or photovoltaic systems, with the medium-voltage grid. The submodules in CHB converter-based energy systems unavoidably process different active power during operation. However, there exist inherent limits that prohibit an arbitrarily imbalanced intraphase active power distribution. Failing to consider such limits can result in output current distortion and capacitor voltage deviation, which can jeopardize the CHB converter. Crucially, these limits vary depending on the modulation method utilized, whose selection is, thus, of utmost relevance. Accordingly, this article derives and compares the feasible intraphase active power imbalance range of existing modulation methods. The analysis is experimentally corroborated in a 1-kVA single-phase CHB converter with six submodules per phase. Based on the comparison, suggestions on which modulation methods are preferred for different CHB applications are provided.

AB - The cascaded H-bridge (CHB) converter is an attractive topology to interface energy sources, such as battery energy storage or photovoltaic systems, with the medium-voltage grid. The submodules in CHB converter-based energy systems unavoidably process different active power during operation. However, there exist inherent limits that prohibit an arbitrarily imbalanced intraphase active power distribution. Failing to consider such limits can result in output current distortion and capacitor voltage deviation, which can jeopardize the CHB converter. Crucially, these limits vary depending on the modulation method utilized, whose selection is, thus, of utmost relevance. Accordingly, this article derives and compares the feasible intraphase active power imbalance range of existing modulation methods. The analysis is experimentally corroborated in a 1-kVA single-phase CHB converter with six submodules per phase. Based on the comparison, suggestions on which modulation methods are preferred for different CHB applications are provided.

KW - Battery energy storage systems (BESSs)

KW - cascaded H-bridge (CHB) converter

KW - modulation

KW - photovoltaic (PV) systems

KW - power imbalance tolerance

KW - renewable energy sources

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JO - IEEE Open Journal of the Industrial Electronics Society

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ER -

On the Capability of Cascaded H-Bridge Converter-Based Energy Systems to Tolerate Intraphase Active Power Imbalance

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