Start control of an M^3C-based FFTS

Start control of an M^3C-based FFTS

The fractional frequency transmission system (FFTS) can multiply increase transmission capacity by using a lower frequency to reduce the reactance of the AC transmission system. The modular multi-level matric converter (M^3C) as the new generation of the AC/AC converter is the critical equipment of...

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Main Authors: Xiaoliang Zhang, Xifan Wang, Xiuli Wang, Qihang Huang, Jiajie Fan, Qian Zhou
Format: Article
Language:English
Published: Wiley 2019-04-01
Series:The Journal of Engineering
Subjects:
AC-AC power convertors
resistors
equivalent circuits
power transmission control
fractional frequency transmission system
transmission capacity
modular multilevel matric converter
self-start control strategy
start-up procedure
uncontrollable stage
controllable stage
digital simulation system
AC-AC converter
M^3C-based FFTS
AC transmission system reactance reduction
equivalent circuit
maximum charging current
current-limit resistor
Online Access:https://digital-library.theiet.org/content/journals/10.1049/joe.2018.8401
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spelling doaj-898ce07ab625486bbf17db082066f2992021-04-02T05:34:40ZengWileyThe Journal of Engineering2051-33052019-04-0110.1049/joe.2018.8401JOE.2018.8401Start control of an M^3C-based FFTSXiaoliang Zhang0Xifan Wang1Xiuli Wang2Qihang Huang3Jiajie Fan4Qian Zhou5Shaanxi Key Laboratory of Smart Grid, Xi'an Jiaotong UniversityShaanxi Key Laboratory of Smart Grid, Xi'an Jiaotong UniversityShaanxi Key Laboratory of Smart Grid, Xi'an Jiaotong UniversityShaanxi Key Laboratory of Smart Grid, Xi'an Jiaotong UniversityShaanxi Key Laboratory of Smart Grid, Xi'an Jiaotong UniversityState Grid Jiangsu Electric Power Research InstituteThe fractional frequency transmission system (FFTS) can multiply increase transmission capacity by using a lower frequency to reduce the reactance of the AC transmission system. The modular multi-level matric converter (M^3C) as the new generation of the AC/AC converter is the critical equipment of FFTS. The self-start control strategy for M^3C-based FFTS is proposed and the whole start-up procedure is divided into the uncontrollable stage and controllable stage. The model of the equivalent circuit in an uncontrollable stage is built and the mathematical relation between the maximum charging current and the current-limit resistor is obtained. Finally, a digital simulation system of M^3C-based FFTS is established, and the effectiveness of the proposed control strategies is verified by simulation results.https://digital-library.theiet.org/content/journals/10.1049/joe.2018.8401AC-AC power convertorsresistorsequivalent circuitspower transmission controlfractional frequency transmission systemtransmission capacitymodular multilevel matric converterself-start control strategystart-up procedureuncontrollable stagecontrollable stagedigital simulation systemAC-AC converterM^3C-based FFTSAC transmission system reactance reductionequivalent circuitmaximum charging currentcurrent-limit resistor
collection DOAJ
language English
format Article
sources DOAJ
author Xiaoliang Zhang
Xifan Wang
Xiuli Wang
Qihang Huang
Jiajie Fan
Qian Zhou
spellingShingle Xiaoliang Zhang
Xifan Wang
Xiuli Wang
Qihang Huang
Jiajie Fan
Qian Zhou
Start control of an M^3C-based FFTS
The Journal of Engineering
AC-AC power convertors
resistors
equivalent circuits
power transmission control
fractional frequency transmission system
transmission capacity
modular multilevel matric converter
self-start control strategy
start-up procedure
uncontrollable stage
controllable stage
digital simulation system
AC-AC converter
M^3C-based FFTS
AC transmission system reactance reduction
equivalent circuit
maximum charging current
current-limit resistor
author_facet Xiaoliang Zhang
Xifan Wang
Xiuli Wang
Qihang Huang
Jiajie Fan
Qian Zhou
author_sort Xiaoliang Zhang
title Start control of an M^3C-based FFTS
title_short Start control of an M^3C-based FFTS
title_full Start control of an M^3C-based FFTS
title_fullStr Start control of an M^3C-based FFTS
title_full_unstemmed Start control of an M^3C-based FFTS
title_sort start control of an m^3c-based ffts
publisher Wiley
series The Journal of Engineering
issn 2051-3305
publishDate 2019-04-01
description The fractional frequency transmission system (FFTS) can multiply increase transmission capacity by using a lower frequency to reduce the reactance of the AC transmission system. The modular multi-level matric converter (M^3C) as the new generation of the AC/AC converter is the critical equipment of FFTS. The self-start control strategy for M^3C-based FFTS is proposed and the whole start-up procedure is divided into the uncontrollable stage and controllable stage. The model of the equivalent circuit in an uncontrollable stage is built and the mathematical relation between the maximum charging current and the current-limit resistor is obtained. Finally, a digital simulation system of M^3C-based FFTS is established, and the effectiveness of the proposed control strategies is verified by simulation results.
topic AC-AC power convertors
resistors
equivalent circuits
power transmission control
fractional frequency transmission system
transmission capacity
modular multilevel matric converter
self-start control strategy
start-up procedure
uncontrollable stage
controllable stage
digital simulation system
AC-AC converter
M^3C-based FFTS
AC transmission system reactance reduction
equivalent circuit
maximum charging current
current-limit resistor
url https://digital-library.theiet.org/content/journals/10.1049/joe.2018.8401
work_keys_str_mv AT xiaoliangzhang startcontrolofanm3cbasedffts
AT xifanwang startcontrolofanm3cbasedffts
AT xiuliwang startcontrolofanm3cbasedffts
AT qihanghuang startcontrolofanm3cbasedffts
AT jiajiefan startcontrolofanm3cbasedffts
AT qianzhou startcontrolofanm3cbasedffts
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