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Bibliographic Details
Main Authors: Trinh, Quoc Nam, Nguyen, Bang, Hovsapian, Rob
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.15604
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author Trinh, Quoc Nam
Nguyen, Bang
Hovsapian, Rob
author_facet Trinh, Quoc Nam
Nguyen, Bang
Hovsapian, Rob
contents This paper proposes an advanced control strategy to eliminate both current sharing error and DC circulating current caused by line impedance mismatched and measurement errors in islanded AC microgrid system. The proposed adaptive virtual impedance scheme is developed with the aid of a low bandwidth communication and a simple PI compensator to adaptively adjust the virtual impedance value so that active and reactive power will be shared equally among inverters. Meanwhile, the DC offset in output voltage measurement is detected by using the voltage ripple information of DC link voltage of inverter. The proposed control strategy can be implemented directly without any pre-knowledge of the feeder impedances. The proposed compensation scheme is simple and easy to implement, and it also does not require extra hardware circuit or sensors. The effectiveness of the proposed solution is verified by simulation and experimental results of 6 kVA microgrid system.
format Preprint
id arxiv_https___arxiv_org_abs_2412_15604
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Advanced Control Strategy to Compensate Power Sharing Error and DC Circulating Current in Parallel Single-Phase Inverters
Trinh, Quoc Nam
Nguyen, Bang
Hovsapian, Rob
Systems and Control
This paper proposes an advanced control strategy to eliminate both current sharing error and DC circulating current caused by line impedance mismatched and measurement errors in islanded AC microgrid system. The proposed adaptive virtual impedance scheme is developed with the aid of a low bandwidth communication and a simple PI compensator to adaptively adjust the virtual impedance value so that active and reactive power will be shared equally among inverters. Meanwhile, the DC offset in output voltage measurement is detected by using the voltage ripple information of DC link voltage of inverter. The proposed control strategy can be implemented directly without any pre-knowledge of the feeder impedances. The proposed compensation scheme is simple and easy to implement, and it also does not require extra hardware circuit or sensors. The effectiveness of the proposed solution is verified by simulation and experimental results of 6 kVA microgrid system.
title Advanced Control Strategy to Compensate Power Sharing Error and DC Circulating Current in Parallel Single-Phase Inverters
topic Systems and Control
url https://arxiv.org/abs/2412.15604