Abstract
This paper describes a theoretical with experiment study on a control strategy for the parallel operation of threephase voltage source inverters (VSI), to be applied to
uninterruptible power systems (UPS). A circulating current suppression strategy for parallel VSIs is proposed in this paper based on circulating current control loops used to modify the reference currents by compensating the error currents among parallel inverters. Both of the cross and zero-sequence circulating currents are considered. The proposed method is coordinated together with droop and virtual impedance control. In this paper, droop control is used to generate the reference voltage of each inverter, and the virtual impedance is used to fix the output impedance of the inverters. In addition, a secondary control is used in order to recover the voltage deviation caused by the virtual impedance. And the auxiliary current control loop is added to acquire a better average current sharing performance among parallel VSIs, which can effectively suppress both of the
cross and zero-sequence circulating currents. Experimental results are presented in order to verify the effectiveness of the proposed control strategy.
uninterruptible power systems (UPS). A circulating current suppression strategy for parallel VSIs is proposed in this paper based on circulating current control loops used to modify the reference currents by compensating the error currents among parallel inverters. Both of the cross and zero-sequence circulating currents are considered. The proposed method is coordinated together with droop and virtual impedance control. In this paper, droop control is used to generate the reference voltage of each inverter, and the virtual impedance is used to fix the output impedance of the inverters. In addition, a secondary control is used in order to recover the voltage deviation caused by the virtual impedance. And the auxiliary current control loop is added to acquire a better average current sharing performance among parallel VSIs, which can effectively suppress both of the
cross and zero-sequence circulating currents. Experimental results are presented in order to verify the effectiveness of the proposed control strategy.
Originalsprog | Engelsk |
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Titel | Proceedings of 8th IEEE Energy Conversion Congress and Exposition (ECCE), 2016 |
Antal sider | 6 |
Forlag | IEEE Press |
Publikationsdato | sep. 2016 |
ISBN (Elektronisk) | 978-1-5090-0737-0 |
DOI | |
Status | Udgivet - sep. 2016 |
Begivenhed | 8th Annual IEEE Energy Conversion Congress & Exposition: ECCE 2016 - Milwaukee, WI, USA Varighed: 18 sep. 2016 → 22 sep. 2016 http://www.ieee-ecce.org/ |
Konference
Konference | 8th Annual IEEE Energy Conversion Congress & Exposition |
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Land/Område | USA |
By | Milwaukee, WI |
Periode | 18/09/2016 → 22/09/2016 |
Sponsor | IEEE, IEEE Industry Applications Society (IAS), IEEE Power Electronics and Industry Applications Societies (PELS) |
Internetadresse |