Time Domain Particle Swarm Optimization of PI Controllers for Bidirectional VSC HVDC Light System

Time Domain Particle Swarm Optimization of PI Controllers for Bidirectional VSC HVDC Light System

This paper proposes a novel technique to tune the PI controllers of a bidirectional HVDC light system by embedding particle swarm optimization directly in the Simulink model in the design procedure. The HVDC light system comprises of a rectifier station, a DC link, and an inverter station. Each conv...

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Bibliographic Details
Main Authors: Syed F Faisal, Abdul R Beig, Sunil Thomas
Format: Article
Language:English
Published: MDPI AG 2020-02-01
Series:Energies
Subjects:
voltage source converter (vsc)
hvdc light system
bidirectional hvdc
decoupled d-q vector control
pi tuning
time-domain performance indices
particle swarm optimization (pso)
modulus optimum (mo)
Online Access:https://www.mdpi.com/1996-1073/13/4/866
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spelling doaj-3f5e3dccda2146698103ecb153fd59452020-11-25T02:18:24ZengMDPI AGEnergies1996-10732020-02-0113486610.3390/en13040866en13040866Time Domain Particle Swarm Optimization of PI Controllers for Bidirectional VSC HVDC Light SystemSyed F Faisal0Abdul R Beig1Sunil Thomas2Advanced Power and Energy Center, (EE & CS), Khalifa University of Science and Technology, Abu Dhabi P.O. Box 2533, UAEAdvanced Power and Energy Center, (EE & CS), Khalifa University of Science and Technology, Abu Dhabi P.O. Box 2533, UAEDepartment of Electrical and Electronics Engineering, Birla Institute of Technology and Science, Pilani, Dubai 345055, UAEThis paper proposes a novel technique to tune the PI controllers of a bidirectional HVDC light system by embedding particle swarm optimization directly in the Simulink model in the design procedure. The HVDC light system comprises of a rectifier station, a DC link, and an inverter station. Each converter station requires four PI controllers to be tuned in the decoupled d-q vector control scheme, and with the bidirectional HVDC system, the required PI controllers are doubled. Tuning these many controllers using conventional methods is a challenging task, especially if the parameters of the converter stations are different. A novel approach to tune the PI controllers for a bidirectional HVDC system using the time-domain performance indices is presented in this paper. The time-domain performance indices are optimized using the particle swarm optimization (PSO) algorithm. The results of the proposed tuning method show that the proposed method not only gives superior results but also is less cumbersome to tune compared to conventional methods like modulus optimum (MO).https://www.mdpi.com/1996-1073/13/4/866voltage source converter (vsc)hvdc light systembidirectional hvdcdecoupled d-q vector controlpi tuningtime-domain performance indicesparticle swarm optimization (pso)modulus optimum (mo)
collection DOAJ
language English
format Article
sources DOAJ
author Syed F Faisal
Abdul R Beig
Sunil Thomas
spellingShingle Syed F Faisal
Abdul R Beig
Sunil Thomas
Time Domain Particle Swarm Optimization of PI Controllers for Bidirectional VSC HVDC Light System
Energies
voltage source converter (vsc)
hvdc light system
bidirectional hvdc
decoupled d-q vector control
pi tuning
time-domain performance indices
particle swarm optimization (pso)
modulus optimum (mo)
author_facet Syed F Faisal
Abdul R Beig
Sunil Thomas
author_sort Syed F Faisal
title Time Domain Particle Swarm Optimization of PI Controllers for Bidirectional VSC HVDC Light System
title_short Time Domain Particle Swarm Optimization of PI Controllers for Bidirectional VSC HVDC Light System
title_full Time Domain Particle Swarm Optimization of PI Controllers for Bidirectional VSC HVDC Light System
title_fullStr Time Domain Particle Swarm Optimization of PI Controllers for Bidirectional VSC HVDC Light System
title_full_unstemmed Time Domain Particle Swarm Optimization of PI Controllers for Bidirectional VSC HVDC Light System
title_sort time domain particle swarm optimization of pi controllers for bidirectional vsc hvdc light system
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2020-02-01
description This paper proposes a novel technique to tune the PI controllers of a bidirectional HVDC light system by embedding particle swarm optimization directly in the Simulink model in the design procedure. The HVDC light system comprises of a rectifier station, a DC link, and an inverter station. Each converter station requires four PI controllers to be tuned in the decoupled d-q vector control scheme, and with the bidirectional HVDC system, the required PI controllers are doubled. Tuning these many controllers using conventional methods is a challenging task, especially if the parameters of the converter stations are different. A novel approach to tune the PI controllers for a bidirectional HVDC system using the time-domain performance indices is presented in this paper. The time-domain performance indices are optimized using the particle swarm optimization (PSO) algorithm. The results of the proposed tuning method show that the proposed method not only gives superior results but also is less cumbersome to tune compared to conventional methods like modulus optimum (MO).
topic voltage source converter (vsc)
hvdc light system
bidirectional hvdc
decoupled d-q vector control
pi tuning
time-domain performance indices
particle swarm optimization (pso)
modulus optimum (mo)
url https://www.mdpi.com/1996-1073/13/4/866
work_keys_str_mv AT syedffaisal timedomainparticleswarmoptimizationofpicontrollersforbidirectionalvschvdclightsystem
AT abdulrbeig timedomainparticleswarmoptimizationofpicontrollersforbidirectionalvschvdclightsystem
AT sunilthomas timedomainparticleswarmoptimizationofpicontrollersforbidirectionalvschvdclightsystem
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