Compensation characterization of the UPQC system under an improved nonlinear controller based on the MSTOGI-PLL device

To solve the delay problem of a unified power quality conditioner (UPQC) system during the separation of the fundamental positive-order components and to better filter out the DC and harmonic components to realize accurate phase locking, a mixed second- and third-order generalized integrator phase-l...

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Published in:FRONTIERS IN ENERGY RESEARCH
Main Authors: Yu, Yuting; Li, Dan; Chu, Yanting
Format: Article
Language:English
Published: FRONTIERS MEDIA SA 2024
Subjects:
Online Access:https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001229136100001
author Yu
Yuting; Li
Dan; Chu
Yanting
spellingShingle Yu
Yuting; Li
Dan; Chu
Yanting
Compensation characterization of the UPQC system under an improved nonlinear controller based on the MSTOGI-PLL device
Energy & Fuels
author_facet Yu
Yuting; Li
Dan; Chu
Yanting
author_sort Yu
spelling Yu, Yuting; Li, Dan; Chu, Yanting
Compensation characterization of the UPQC system under an improved nonlinear controller based on the MSTOGI-PLL device
FRONTIERS IN ENERGY RESEARCH
English
Article
To solve the delay problem of a unified power quality conditioner (UPQC) system during the separation of the fundamental positive-order components and to better filter out the DC and harmonic components to realize accurate phase locking, a mixed second- and third-order generalized integrator phase-locked loop (MSTOGI-PLL) has been designed to replace the traditional synchronous reference frame phase-locked loop (SRF-PLL). Under the premise of adopting the new phase-locking device of MSTOGI-PLL, the active disturbance rejection control (ADRC) controller or the super-twisting algorithm (STA) sliding mode controller is used in the DC voltage control module instead of the traditional PI controller, and the suitability of the two nonlinear controllers with the MSTOGI-PLL device is investigated. First, the new MSTOGI-PLL device is designed, and the new phase-locking method is applied to make the UPQC realize accurate phase locking under the non-ideal situation of the grid voltage containing unbalance, DC component, harmonics, and so on. Based on the above foundation, the ADRC or STA controller is independently adopted to replace the PI controller to construct the UPQC system with the ADRC + MSTOGI phase-locking device and the second-order STA + MSTOGI phase-locking device. Finally, a simulation comparison is carried out in a Simulink simulation platform regarding the UPQC system under different phase-locking devices, and the simulation results demonstrate that MSTOGI-PLL can successfully filter out the DC component and resolve the phase-locking process delay issue. Additionally, the UPQC system with ADRC + MSTOGI-PLL exhibits superior immunity and response speed to the PI controller and the second-order STA controller.
FRONTIERS MEDIA SA
2296-598X

2024
12

10.3389/fenrg.2024.1393629
Energy & Fuels
gold
WOS:001229136100001
https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001229136100001
title Compensation characterization of the UPQC system under an improved nonlinear controller based on the MSTOGI-PLL device
title_short Compensation characterization of the UPQC system under an improved nonlinear controller based on the MSTOGI-PLL device
title_full Compensation characterization of the UPQC system under an improved nonlinear controller based on the MSTOGI-PLL device
title_fullStr Compensation characterization of the UPQC system under an improved nonlinear controller based on the MSTOGI-PLL device
title_full_unstemmed Compensation characterization of the UPQC system under an improved nonlinear controller based on the MSTOGI-PLL device
title_sort Compensation characterization of the UPQC system under an improved nonlinear controller based on the MSTOGI-PLL device
container_title FRONTIERS IN ENERGY RESEARCH
language English
format Article
description To solve the delay problem of a unified power quality conditioner (UPQC) system during the separation of the fundamental positive-order components and to better filter out the DC and harmonic components to realize accurate phase locking, a mixed second- and third-order generalized integrator phase-locked loop (MSTOGI-PLL) has been designed to replace the traditional synchronous reference frame phase-locked loop (SRF-PLL). Under the premise of adopting the new phase-locking device of MSTOGI-PLL, the active disturbance rejection control (ADRC) controller or the super-twisting algorithm (STA) sliding mode controller is used in the DC voltage control module instead of the traditional PI controller, and the suitability of the two nonlinear controllers with the MSTOGI-PLL device is investigated. First, the new MSTOGI-PLL device is designed, and the new phase-locking method is applied to make the UPQC realize accurate phase locking under the non-ideal situation of the grid voltage containing unbalance, DC component, harmonics, and so on. Based on the above foundation, the ADRC or STA controller is independently adopted to replace the PI controller to construct the UPQC system with the ADRC + MSTOGI phase-locking device and the second-order STA + MSTOGI phase-locking device. Finally, a simulation comparison is carried out in a Simulink simulation platform regarding the UPQC system under different phase-locking devices, and the simulation results demonstrate that MSTOGI-PLL can successfully filter out the DC component and resolve the phase-locking process delay issue. Additionally, the UPQC system with ADRC + MSTOGI-PLL exhibits superior immunity and response speed to the PI controller and the second-order STA controller.
publisher FRONTIERS MEDIA SA
issn 2296-598X

publishDate 2024
container_volume 12
container_issue
doi_str_mv 10.3389/fenrg.2024.1393629
topic Energy & Fuels
topic_facet Energy & Fuels
accesstype gold
id WOS:001229136100001
url https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001229136100001
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