Model‐based control of four‐leg inverter for UPS applications considering the effect of neutral line inductor

Model‐based control of four‐leg inverter for UPS applications considering the effect of neutral line inductor

Abstract A control approach for three‐phase four‐leg LC‐filtered voltage source inverters (VSIs) is proposed for an uninterruptible power supply (UPS) application. A filter inductor in the fourth (neutral) leg of the VSI is considered to enhance the output voltage quality when feeding different type...

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Main Authors: S. Sajjad Seyedalipour, Mahdi Shahparasti, Amin Hajizadeh, Mehdi Savaghebi
Format: Article
Language:English
Published: Wiley 2021-06-01
Series:IET Power Electronics
Online Access:https://doi.org/10.1049/pel2.12124
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spelling doaj-5d892f30176e45ee9bb8fec8a42be05a2021-08-02T08:20:48ZengWileyIET Power Electronics1755-45351755-45432021-06-011481468147910.1049/pel2.12124Model‐based control of four‐leg inverter for UPS applications considering the effect of neutral line inductorS. Sajjad Seyedalipour0Mahdi Shahparasti1Amin Hajizadeh2Mehdi Savaghebi3Faculty of Electrical Engineering K. N. Toosi University of Technology Tehran IranElectrical Engineering Section Department of Mechanical and Electrical Engineering University of Southern Denmark Odense DenmarkDepartment of Energy Technology Aalborg University Esbjerg DenmarkElectrical Engineering Section Department of Mechanical and Electrical Engineering University of Southern Denmark Odense DenmarkAbstract A control approach for three‐phase four‐leg LC‐filtered voltage source inverters (VSIs) is proposed for an uninterruptible power supply (UPS) application. A filter inductor in the fourth (neutral) leg of the VSI is considered to enhance the output voltage quality when feeding different types of loads in such a system. The proposed approach is based on the modelling of UPS VSI system in the dq0 synchronous frame. First, the switching functions of the inverter under study are extracted from the achieved system model. Afterward, the control approach is developed by introducing a virtual time constant, which simultaneously affects the system's damping ratio, and a virtual undamped natural frequency in the switching functions. It offers flexibility for improving the system dynamic and steady‐state responses as desired. While the final time constant decreases the transient response time and overshoot, the resulting undamped natural frequency leads to alleviation of steady‐state error in the output voltage. The performance of the proposed control approach is evaluated via SIMULINK‐based and real‐time simulation results.https://doi.org/10.1049/pel2.12124
collection DOAJ
language English
format Article
sources DOAJ
author S. Sajjad Seyedalipour
Mahdi Shahparasti
Amin Hajizadeh
Mehdi Savaghebi
spellingShingle S. Sajjad Seyedalipour
Mahdi Shahparasti
Amin Hajizadeh
Mehdi Savaghebi
Model‐based control of four‐leg inverter for UPS applications considering the effect of neutral line inductor
IET Power Electronics
author_facet S. Sajjad Seyedalipour
Mahdi Shahparasti
Amin Hajizadeh
Mehdi Savaghebi
author_sort S. Sajjad Seyedalipour
title Model‐based control of four‐leg inverter for UPS applications considering the effect of neutral line inductor
title_short Model‐based control of four‐leg inverter for UPS applications considering the effect of neutral line inductor
title_full Model‐based control of four‐leg inverter for UPS applications considering the effect of neutral line inductor
title_fullStr Model‐based control of four‐leg inverter for UPS applications considering the effect of neutral line inductor
title_full_unstemmed Model‐based control of four‐leg inverter for UPS applications considering the effect of neutral line inductor
title_sort model‐based control of four‐leg inverter for ups applications considering the effect of neutral line inductor
publisher Wiley
series IET Power Electronics
issn 1755-4535
1755-4543
publishDate 2021-06-01
description Abstract A control approach for three‐phase four‐leg LC‐filtered voltage source inverters (VSIs) is proposed for an uninterruptible power supply (UPS) application. A filter inductor in the fourth (neutral) leg of the VSI is considered to enhance the output voltage quality when feeding different types of loads in such a system. The proposed approach is based on the modelling of UPS VSI system in the dq0 synchronous frame. First, the switching functions of the inverter under study are extracted from the achieved system model. Afterward, the control approach is developed by introducing a virtual time constant, which simultaneously affects the system's damping ratio, and a virtual undamped natural frequency in the switching functions. It offers flexibility for improving the system dynamic and steady‐state responses as desired. While the final time constant decreases the transient response time and overshoot, the resulting undamped natural frequency leads to alleviation of steady‐state error in the output voltage. The performance of the proposed control approach is evaluated via SIMULINK‐based and real‐time simulation results.
url https://doi.org/10.1049/pel2.12124
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AT aminhajizadeh modelbasedcontroloffourleginverterforupsapplicationsconsideringtheeffectofneutrallineinductor
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