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Mitigation of leakage-ground currents in transformerless grid-tied inverters via virtual-ground connection

Mitigation of leakage-ground currents in transformerless grid-tied inverters via virtual-ground connection
Mitigation of leakage-ground currents in transformerless grid-tied inverters via virtual-ground connection

This article studies the benefits of the virtual-ground (VG) connection for single-phase transformerless grid-tied inverters, which is used to mitigate the leakage-ground currents (LGCs) issue. This article also proposes common-mode and differential-mode models of single-phase inverters connected to the grid through an LCL output filter, which are used as a theoretical support. It is shown that LGCs are simply common-mode currents (CMCs) circulating through the ground path, which represents a contribution in the development of an approach to find solutions in general scenarios. In most of the cases, these currents are produced by the existence of common-mode voltages (CMVs), which find a way through the ground path established after the stray capacitances in the terminals of, for instance, photovoltaic (PV) panels. To prove the advantages of the proposed interconnection and for analysis, the single-phase full-bridge version of a two-level conventional inverter, as well as a neutral-point-clamped (NPC) inverter, is considered for model derivation and experimental validation.

Common-mode model, common-mode voltage (CMV), differential-mode model, leakage-ground currents (LGCs), virtual ground (VG)
2168-6777
3111-3123
Escobar, Gerardo
9d5b1954-920f-46b6-83a3-fc61eed024f2
Martinez-Rodriguez, Panfilo Raymundo
d511c4e1-9a69-449c-a33f-aebb96f2aae0
Iturriaga-Medina, Samuel
3bc8c7b6-b289-4fbc-bc9f-d4e9fb2abc65
Mayo-Maldonado, Jonathan C.
c7321b60-3130-43f4-89f4-f12ac5b2f822
Lopez-Sarabia, Jorge
e865c884-4d25-4c2e-8805-c25a3bf50450
Micheloud-Vernackt, Osvaldo Miguel
386f7599-1cb8-4fa5-8161-ac68ed7e9483
Escobar, Gerardo
9d5b1954-920f-46b6-83a3-fc61eed024f2
Martinez-Rodriguez, Panfilo Raymundo
d511c4e1-9a69-449c-a33f-aebb96f2aae0
Iturriaga-Medina, Samuel
3bc8c7b6-b289-4fbc-bc9f-d4e9fb2abc65
Mayo-Maldonado, Jonathan C.
c7321b60-3130-43f4-89f4-f12ac5b2f822
Lopez-Sarabia, Jorge
e865c884-4d25-4c2e-8805-c25a3bf50450
Micheloud-Vernackt, Osvaldo Miguel
386f7599-1cb8-4fa5-8161-ac68ed7e9483

Escobar, Gerardo, Martinez-Rodriguez, Panfilo Raymundo, Iturriaga-Medina, Samuel, Mayo-Maldonado, Jonathan C., Lopez-Sarabia, Jorge and Micheloud-Vernackt, Osvaldo Miguel (2020) Mitigation of leakage-ground currents in transformerless grid-tied inverters via virtual-ground connection. IEEE Journal of Emerging and Selected Topics in Power Electronics, 8 (3), 3111-3123, [8788565]. (doi:10.1109/JESTPE.2019.2933399).

Record type: Article

Abstract

This article studies the benefits of the virtual-ground (VG) connection for single-phase transformerless grid-tied inverters, which is used to mitigate the leakage-ground currents (LGCs) issue. This article also proposes common-mode and differential-mode models of single-phase inverters connected to the grid through an LCL output filter, which are used as a theoretical support. It is shown that LGCs are simply common-mode currents (CMCs) circulating through the ground path, which represents a contribution in the development of an approach to find solutions in general scenarios. In most of the cases, these currents are produced by the existence of common-mode voltages (CMVs), which find a way through the ground path established after the stray capacitances in the terminals of, for instance, photovoltaic (PV) panels. To prove the advantages of the proposed interconnection and for analysis, the single-phase full-bridge version of a two-level conventional inverter, as well as a neutral-point-clamped (NPC) inverter, is considered for model derivation and experimental validation.

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More information

Published date: September 2020
Additional Information: Publisher Copyright: © 2013 IEEE.
Keywords: Common-mode model, common-mode voltage (CMV), differential-mode model, leakage-ground currents (LGCs), virtual ground (VG)
Learn more about School of Electronics and Computer Science research Learn more about Electrical Power Engineering research

Identifiers

Local EPrints ID: 503441
URI: http://eprints.soton.ac.uk/id/eprint/503441
DOI: doi:10.1109/JESTPE.2019.2933399
ISSN: 2168-6777
PURE UUID: 3d05d25e-2b3e-4e22-86e0-004c96c72f0d
ORCID for Jonathan C. Mayo-Maldonado: ORCID iD orcid.org/0000-0003-2513-2395

Catalogue record

Date deposited: 31 Jul 2025 16:56
Last modified: 01 Aug 2025 02:18

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Contributors

Author: Gerardo Escobar
Author: Panfilo Raymundo Martinez-Rodriguez
Author: Samuel Iturriaga-Medina
Author: Jonathan C. Mayo-Maldonado ORCID iD
Author: Jorge Lopez-Sarabia
Author: Osvaldo Miguel Micheloud-Vernackt

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