Grid Current Shaping Method with DC-Link Shunt Compensator for Three-Phase Diode Rectifier-Fed Motor Drive System

Grid Current Shaping Method with DC-Link Shunt Compensator for Three-Phase Diode Rectifier-Fed Motor Drive System

This paper proposes grid current shaping method using dc-link shunt compensator for three-phase diode rectifier system without electrolytic dc-link capacitor. In the proposed method, the diode rectifier system can satisfy the grid regulation IEC61000-3-12 without any power factor correction circuit...

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Veröffentlicht in:IEEE transactions on power electronics 2017-02, Vol.32 (2), p.1279-1288
Hauptverfasser: Shin, Hojoon, Son, Yeongrack, Ha, Jung-Ik
Format: Artikel
Sprache:eng
Schlagworte:
Capacitors
Circuit reliability
Circuits
DC-link shunt compensator (DSC)
Diode rectifiers
Direct current
electrolytic capacitor-less system
Feasibility studies
grid current harmonic improvement
Harmonic analysis
Inductors
motor drive inverter
Motor drives
Motors
Passive components
Power factor
Power harmonic filters
Rectifiers
Shunts (electrical)
three-phase diode rectifier system
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creator Shin, Hojoon
Son, Yeongrack
Ha, Jung-Ik
description This paper proposes grid current shaping method using dc-link shunt compensator for three-phase diode rectifier system without electrolytic dc-link capacitor. In the proposed method, the diode rectifier system can satisfy the grid regulation IEC61000-3-12 without any power factor correction circuit or heavy grid filter inductor. The proposed grid current shaping method can be realized by applying DSC with reduced-rating components and without electrolytic capacitor, which is connected parallel to the dc link. Since DSC has no electrolytic capacitor, the system with DSC has high circuit reliability. Furthermore, DSC can enhance the system efficiency, especially in flux-weakening area, since the motor drive inverter recovers the reduced modulation index, which has been spent in the additional control for small passive components. This paper presents the control method for DSC and analyzes the effect of proposed method. The feasibility of proposed method is verified by simulation and experimental results.
doi_str_mv 10.1109/TPEL.2016.2540651
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In the proposed method, the diode rectifier system can satisfy the grid regulation IEC61000-3-12 without any power factor correction circuit or heavy grid filter inductor. The proposed grid current shaping method can be realized by applying DSC with reduced-rating components and without electrolytic capacitor, which is connected parallel to the dc link. Since DSC has no electrolytic capacitor, the system with DSC has high circuit reliability. Furthermore, DSC can enhance the system efficiency, especially in flux-weakening area, since the motor drive inverter recovers the reduced modulation index, which has been spent in the additional control for small passive components. This paper presents the control method for DSC and analyzes the effect of proposed method. 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In the proposed method, the diode rectifier system can satisfy the grid regulation IEC61000-3-12 without any power factor correction circuit or heavy grid filter inductor. The proposed grid current shaping method can be realized by applying DSC with reduced-rating components and without electrolytic capacitor, which is connected parallel to the dc link. Since DSC has no electrolytic capacitor, the system with DSC has high circuit reliability. Furthermore, DSC can enhance the system efficiency, especially in flux-weakening area, since the motor drive inverter recovers the reduced modulation index, which has been spent in the additional control for small passive components. This paper presents the control method for DSC and analyzes the effect of proposed method. 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1941-0107
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source IEEE/IET Electronic Library
subjects Capacitors
Circuit reliability
Circuits
DC-link shunt compensator (DSC)
Diode rectifiers
Direct current
electrolytic capacitor-less system
Feasibility studies
grid current harmonic improvement
Harmonic analysis
Inductors
motor drive inverter
Motor drives
Motors
Passive components
Power factor
Power harmonic filters
Rectifiers
Shunts (electrical)
three-phase diode rectifier system
title Grid Current Shaping Method with DC-Link Shunt Compensator for Three-Phase Diode Rectifier-Fed Motor Drive System
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