DC Bus Voltage Control of Grid-Side Converter in Permanent Magnet Synchronous Generator Based on Improved Second-Order Linear Active Disturbance Rejection Control

In the permanent magnet synchronous generator (PMSG), the DC bus voltage fluctuates up and down under the influence of the load and power grid, which greatly affects the safe and reliable work of PMSG. In order to suppress the wide range fluctuation of DC bus voltage under disturbance and enhance it...

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Main Authors: Xuesong Zhou, Yongliang Zhou, Youjie Ma, Luyong Yang, Xia Yang, Bo Zhang
Format: Article
Language:English
Published: MDPI AG 2020-09-01
Series:Energies
Subjects:
Online Access:https://www.mdpi.com/1996-1073/13/18/4592
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spelling doaj-3e6912322f734f759a15c005fc06d7ab2020-11-25T02:30:43ZengMDPI AGEnergies1996-10732020-09-01134592459210.3390/en13184592DC Bus Voltage Control of Grid-Side Converter in Permanent Magnet Synchronous Generator Based on Improved Second-Order Linear Active Disturbance Rejection ControlXuesong Zhou0Yongliang Zhou1Youjie Ma2Luyong Yang3Xia Yang4Bo Zhang5Tianjin Key Laboratory for Control Theory and Application in Complicated Systems, Tianjin University of Technology, Tianjin 300384, ChinaSchool of Electrical and Electronic Engineering, Tianjin University of Technology, Tianjin 300384, ChinaTianjin Key Laboratory for Control Theory and Application in Complicated Systems, Tianjin University of Technology, Tianjin 300384, ChinaSchool of Electrical and Electronic Engineering, Tianjin University of Technology, Tianjin 300384, ChinaSchool of Electrical and Electronic Engineering, Tianjin University of Technology, Tianjin 300384, ChinaSchool of Electrical and Electronic Engineering, Tianjin University of Technology, Tianjin 300384, ChinaIn the permanent magnet synchronous generator (PMSG), the DC bus voltage fluctuates up and down under the influence of the load and power grid, which greatly affects the safe and reliable work of PMSG. In order to suppress the wide range fluctuation of DC bus voltage under disturbance and enhance its anti-disturbance performance, an optimized DC bus voltage control strategy is proposed by using the improved linear active disturbance rejection control (LADRC) in the voltage outer loop. By considering factors, such as load disturbance and grid voltage mutation as the total disturbance of the system, the improved reduced-order linear expansion state observer (RLSEO) is used to estimate and compensate the total disturbance, which greatly improves the stability of DC bus voltage. Firstly, the mathematical model of grid-side converter is established. On this basis, the LADRC control based on RLESO is designed, which reduces the phase lag of the linear extended state observer (LESO) and enhances the disturbance observation accuracy of the system. Then, a lead lag correction link is added to the total disturbance channel of RLESO to reduce the noise amplification effect of RLESO. Finally, the frequency domain characteristic analysis and stability proof of the improved LADRC control strategy are carried out. The simulation results show that the control strategy proposed in the article has a better control effect on the DC bus voltage.https://www.mdpi.com/1996-1073/13/18/4592DC bus voltagegrid-side converterlinear active disturbance rejection controlreduced-order linear expansion state observercorrection linkfrequency domain analysis
collection DOAJ
language English
format Article
sources DOAJ
author Xuesong Zhou
Yongliang Zhou
Youjie Ma
Luyong Yang
Xia Yang
Bo Zhang
spellingShingle Xuesong Zhou
Yongliang Zhou
Youjie Ma
Luyong Yang
Xia Yang
Bo Zhang
DC Bus Voltage Control of Grid-Side Converter in Permanent Magnet Synchronous Generator Based on Improved Second-Order Linear Active Disturbance Rejection Control
Energies
DC bus voltage
grid-side converter
linear active disturbance rejection control
reduced-order linear expansion state observer
correction link
frequency domain analysis
author_facet Xuesong Zhou
Yongliang Zhou
Youjie Ma
Luyong Yang
Xia Yang
Bo Zhang
author_sort Xuesong Zhou
title DC Bus Voltage Control of Grid-Side Converter in Permanent Magnet Synchronous Generator Based on Improved Second-Order Linear Active Disturbance Rejection Control
title_short DC Bus Voltage Control of Grid-Side Converter in Permanent Magnet Synchronous Generator Based on Improved Second-Order Linear Active Disturbance Rejection Control
title_full DC Bus Voltage Control of Grid-Side Converter in Permanent Magnet Synchronous Generator Based on Improved Second-Order Linear Active Disturbance Rejection Control
title_fullStr DC Bus Voltage Control of Grid-Side Converter in Permanent Magnet Synchronous Generator Based on Improved Second-Order Linear Active Disturbance Rejection Control
title_full_unstemmed DC Bus Voltage Control of Grid-Side Converter in Permanent Magnet Synchronous Generator Based on Improved Second-Order Linear Active Disturbance Rejection Control
title_sort dc bus voltage control of grid-side converter in permanent magnet synchronous generator based on improved second-order linear active disturbance rejection control
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2020-09-01
description In the permanent magnet synchronous generator (PMSG), the DC bus voltage fluctuates up and down under the influence of the load and power grid, which greatly affects the safe and reliable work of PMSG. In order to suppress the wide range fluctuation of DC bus voltage under disturbance and enhance its anti-disturbance performance, an optimized DC bus voltage control strategy is proposed by using the improved linear active disturbance rejection control (LADRC) in the voltage outer loop. By considering factors, such as load disturbance and grid voltage mutation as the total disturbance of the system, the improved reduced-order linear expansion state observer (RLSEO) is used to estimate and compensate the total disturbance, which greatly improves the stability of DC bus voltage. Firstly, the mathematical model of grid-side converter is established. On this basis, the LADRC control based on RLESO is designed, which reduces the phase lag of the linear extended state observer (LESO) and enhances the disturbance observation accuracy of the system. Then, a lead lag correction link is added to the total disturbance channel of RLESO to reduce the noise amplification effect of RLESO. Finally, the frequency domain characteristic analysis and stability proof of the improved LADRC control strategy are carried out. The simulation results show that the control strategy proposed in the article has a better control effect on the DC bus voltage.
topic DC bus voltage
grid-side converter
linear active disturbance rejection control
reduced-order linear expansion state observer
correction link
frequency domain analysis
url https://www.mdpi.com/1996-1073/13/18/4592
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