An MMC Circulating Current Suppressing Controller Based on Bridge Arm Common-Mode Voltage

An MMC Circulating Current Suppressing Controller Based on Bridge Arm Common-Mode Voltage

Modular Multilevel Converter (MMC) bridge arm circulating current increases the MMC bridge arm current distortion and bridge arm current stress, whereas it also increases converter losses and capacitor voltage fluctuations. In this paper, based on the average value of the switching function of MMC,...

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Main Authors: Zhen Yang, Ping Song, Jian Song, Xuechun Wang, Xin Li
Format: Article
Language:English
Published: IEEE 2020-01-01
Series:IEEE Access
Subjects:
Bridge arm common-mode voltage
circulating current suppressing controller
modular multilevel converter
Online Access:https://ieeexplore.ieee.org/document/9225087/
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spelling doaj-67c2f8f2f9fa45c880925e027322bc222021-03-30T04:10:38ZengIEEEIEEE Access2169-35362020-01-01818947118947810.1109/ACCESS.2020.30313079225087An MMC Circulating Current Suppressing Controller Based on Bridge Arm Common-Mode VoltageZhen Yang0https://orcid.org/0000-0003-1270-2088Ping Song1https://orcid.org/0000-0002-9582-4090Jian Song2Xuechun Wang3Xin Li4Faculty of Electrical and Control Engineering, Liaoning Technical University, Huludao, ChinaFaculty of Electrical and Control Engineering, Liaoning Technical University, Huludao, ChinaYalong River Hydropower Development Company, Chengdu, ChinaFaculty of Electrical and Control Engineering, Liaoning Technical University, Huludao, ChinaFaculty of Electrical and Control Engineering, Liaoning Technical University, Huludao, ChinaModular Multilevel Converter (MMC) bridge arm circulating current increases the MMC bridge arm current distortion and bridge arm current stress, whereas it also increases converter losses and capacitor voltage fluctuations. In this paper, based on the average value of the switching function of MMC, the mathematical relationship between the second harmonic component of the Bridge Arm Common-Mode Voltage (BACMV) and the Circulating Current Suppressing Controller (CCSC) is derived in the d<sup>-2</sup>q<sup>-2</sup> rotating coordinate system. It proposed an MMC's CCSC based on BACMV. The proposed controller consists of two PI controllers, namely the outer controller and the inner controller. The inner controller suppresses the common-mode voltage, and the outer controller eliminates the second harmonic component of the bridge arm common-mode voltage. The MMC-HVDC simulation model is established, and PI-CCSC, PR-CCSC, and BACMV-CCSC are used for comparative study. The results show that the overshoot of PRCCSC is the largest and that of BACMV-CCSC is the smallest in response transient process. After entering the steady-state, the fluctuation of BACMV-CCSC is the smallest, whereas that of PI-CCSC and PR-CCSC is larger. The harmonic component of the secondary current of BACMV-CCSC is 0.08% and THD content is 0.39%, which is significantly lower than the other two suppression controllers. When the load changes abruptly, compared with the dynamic simulation, BACMV-CCSC has a smaller overshoot in the transient response process and has less disturbance after reaching the steady-state, which improves the steady-state performance of the system and the circulating current suppression controller effect, and provides a new idea about MMC circulating current suppression controller.https://ieeexplore.ieee.org/document/9225087/Bridge arm common-mode voltagecirculating current suppressing controllermodular multilevel converter
collection DOAJ
language English
format Article
sources DOAJ
author Zhen Yang
Ping Song
Jian Song
Xuechun Wang
Xin Li
spellingShingle Zhen Yang
Ping Song
Jian Song
Xuechun Wang
Xin Li
An MMC Circulating Current Suppressing Controller Based on Bridge Arm Common-Mode Voltage
IEEE Access
Bridge arm common-mode voltage
circulating current suppressing controller
modular multilevel converter
author_facet Zhen Yang
Ping Song
Jian Song
Xuechun Wang
Xin Li
author_sort Zhen Yang
title An MMC Circulating Current Suppressing Controller Based on Bridge Arm Common-Mode Voltage
title_short An MMC Circulating Current Suppressing Controller Based on Bridge Arm Common-Mode Voltage
title_full An MMC Circulating Current Suppressing Controller Based on Bridge Arm Common-Mode Voltage
title_fullStr An MMC Circulating Current Suppressing Controller Based on Bridge Arm Common-Mode Voltage
title_full_unstemmed An MMC Circulating Current Suppressing Controller Based on Bridge Arm Common-Mode Voltage
title_sort mmc circulating current suppressing controller based on bridge arm common-mode voltage
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2020-01-01
description Modular Multilevel Converter (MMC) bridge arm circulating current increases the MMC bridge arm current distortion and bridge arm current stress, whereas it also increases converter losses and capacitor voltage fluctuations. In this paper, based on the average value of the switching function of MMC, the mathematical relationship between the second harmonic component of the Bridge Arm Common-Mode Voltage (BACMV) and the Circulating Current Suppressing Controller (CCSC) is derived in the d<sup>-2</sup>q<sup>-2</sup> rotating coordinate system. It proposed an MMC's CCSC based on BACMV. The proposed controller consists of two PI controllers, namely the outer controller and the inner controller. The inner controller suppresses the common-mode voltage, and the outer controller eliminates the second harmonic component of the bridge arm common-mode voltage. The MMC-HVDC simulation model is established, and PI-CCSC, PR-CCSC, and BACMV-CCSC are used for comparative study. The results show that the overshoot of PRCCSC is the largest and that of BACMV-CCSC is the smallest in response transient process. After entering the steady-state, the fluctuation of BACMV-CCSC is the smallest, whereas that of PI-CCSC and PR-CCSC is larger. The harmonic component of the secondary current of BACMV-CCSC is 0.08% and THD content is 0.39%, which is significantly lower than the other two suppression controllers. When the load changes abruptly, compared with the dynamic simulation, BACMV-CCSC has a smaller overshoot in the transient response process and has less disturbance after reaching the steady-state, which improves the steady-state performance of the system and the circulating current suppression controller effect, and provides a new idea about MMC circulating current suppression controller.
topic Bridge arm common-mode voltage
circulating current suppressing controller
modular multilevel converter
url https://ieeexplore.ieee.org/document/9225087/
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