Synchronous Generator Emulation Control Strategy for Voltage Source Converter (VSC) Stations

The voltage source converter (VSC) station is playing a more important role in modern power systems, but the dynamic behavior of the VSC station is quite different from that of the synchronous generator. This paper presents the synchronous generator emulation control (SGEC) strategy for the VSC-HVDC...

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Veröffentlicht in:	IEEE transactions on power systems 2015-11, Vol.30 (6), p.3093-3101
Hauptverfasser:	Guan, Minyuan, Pan, Wulue, Zhang, Jing, Hao, Quanrui, Cheng, Jingzhou, Zheng, Xiang
Format:	Artikel
Sprache:	eng
Schlagworte:	Damping Dynamical systems Dynamics Electric potential Emulation Finite element analysis Frequency control Generators High-voltage direct-current (HVDC) transmission modular multilevel converter (MMC) Power conversion Regulation Stations Strategy Synchronous synchronous generator (SG) emulation Synchronous generators vector control virtual synchronous generator Voltage Voltage control voltage source converter (VSC) station VSC-HVDC
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container_title	IEEE transactions on power systems
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creator	Guan, Minyuan Pan, Wulue Zhang, Jing Hao, Quanrui Cheng, Jingzhou Zheng, Xiang
description	The voltage source converter (VSC) station is playing a more important role in modern power systems, but the dynamic behavior of the VSC station is quite different from that of the synchronous generator. This paper presents the synchronous generator emulation control (SGEC) strategy for the VSC-HVDC station. The SGEC strategy is divided into the inner control loop and the outer control loop. The inner controller is developed for fast current and voltage regulations. An inertia element is introduced into the frequency-power droop to determine the command reference of the frequency, and the inertia response and the primary frequency regulation are emulated. In addition, the secondary frequency regulation can be achieved by modulating the scheduled power in the SGEC strategy. The time-domain simulation results demonstrate the VSC station with the proposed control strategy can provide desired frequency support to a low-inertia grid. Therefore, the SGEC strategy provides a simple and practical solution for the VSC station to emulate the behavior of a synchronous generator.
doi_str_mv	10.1109/TPWRS.2014.2384498
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This paper presents the synchronous generator emulation control (SGEC) strategy for the VSC-HVDC station. The SGEC strategy is divided into the inner control loop and the outer control loop. The inner controller is developed for fast current and voltage regulations. An inertia element is introduced into the frequency-power droop to determine the command reference of the frequency, and the inertia response and the primary frequency regulation are emulated. In addition, the secondary frequency regulation can be achieved by modulating the scheduled power in the SGEC strategy. The time-domain simulation results demonstrate the VSC station with the proposed control strategy can provide desired frequency support to a low-inertia grid. 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This paper presents the synchronous generator emulation control (SGEC) strategy for the VSC-HVDC station. The SGEC strategy is divided into the inner control loop and the outer control loop. The inner controller is developed for fast current and voltage regulations. An inertia element is introduced into the frequency-power droop to determine the command reference of the frequency, and the inertia response and the primary frequency regulation are emulated. In addition, the secondary frequency regulation can be achieved by modulating the scheduled power in the SGEC strategy. The time-domain simulation results demonstrate the VSC station with the proposed control strategy can provide desired frequency support to a low-inertia grid. Therefore, the SGEC strategy provides a simple and practical solution for the VSC station to emulate the behavior of a synchronous generator.</abstract><cop>New York</cop><pub>IEEE</pub><doi>10.1109/TPWRS.2014.2384498</doi><tpages>9</tpages></addata></record>
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subjects	Damping Dynamical systems Dynamics Electric potential Emulation Finite element analysis Frequency control Generators High-voltage direct-current (HVDC) transmission modular multilevel converter (MMC) Power conversion Regulation Stations Strategy Synchronous synchronous generator (SG) emulation Synchronous generators vector control virtual synchronous generator Voltage Voltage control voltage source converter (VSC) station VSC-HVDC
title	Synchronous Generator Emulation Control Strategy for Voltage Source Converter (VSC) Stations
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