Synchronverters: Inverters that mimic synchronous generators

Qing Chang Zhong; George Weiss

doi:10.1109/TIE.2010.2048839

Synchronverters: Inverters that mimic synchronous generators

Qing Chang Zhong, George Weiss

School of Electrical Engineering

Tel Aviv University

Research output: Contribution to journal › Article › peer-review

Abstract

In this paper, the idea of operating an inverter to mimic a synchronous generator (SG) is motivated and developed. We call the inverters that are operated in this way synchronverters. Using synchronverters, the well-established theory/algorithms used to control SGs can still be used in power systems where a significant proportion of the generating capacity is inverter-based. We describe the dynamics, implementation, and operation of synchronverters. The real and reactive power delivered by synchronverters connected in parallel and operated as generators can be automatically shared using the well-known frequency- and voltage-drooping mechanisms. Synchronverters can be easily operated also in island mode, and hence, they provide an ideal solution for microgrids or smart grids. Both simulation and experimental results are given to verify the idea.

Original language	English
Article number	5456209
Pages (from-to)	1259-1267
Number of pages	9
Journal	IEEE Transactions on Industrial Electronics
Volume	58
Issue number	4
DOIs	https://doi.org/10.1109/TIE.2010.2048839
State	Published - Apr 2011

Keywords

Distributed generation
frequency drooping
inverter-dominated power system
load sharing
microgrid
parallel inverters
pulsewidth modulation (PWM) inverter
renewable energy
smart grid
static synchronous generator (SG)
synchronverter
virtual SG
voltage drooping

All Science Journal Classification (ASJC) codes

Control and Systems Engineering
Electrical and Electronic Engineering

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1109/TIE.2010.2048839

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title = "Synchronverters: Inverters that mimic synchronous generators",

abstract = "In this paper, the idea of operating an inverter to mimic a synchronous generator (SG) is motivated and developed. We call the inverters that are operated in this way synchronverters. Using synchronverters, the well-established theory/algorithms used to control SGs can still be used in power systems where a significant proportion of the generating capacity is inverter-based. We describe the dynamics, implementation, and operation of synchronverters. The real and reactive power delivered by synchronverters connected in parallel and operated as generators can be automatically shared using the well-known frequency- and voltage-drooping mechanisms. Synchronverters can be easily operated also in island mode, and hence, they provide an ideal solution for microgrids or smart grids. Both simulation and experimental results are given to verify the idea.",

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author = "Zhong, {Qing Chang} and George Weiss",

note = "Funding Information: Manuscript received October 20, 2009; accepted January 19, 2010. Date of publication April 29, 2010; date of current version March 11, 2011. This paper was presented in part at the 2009 IEEE Power Engineering Society Power Systems Conference & Exhibition Seattle, WA, USA, March 2009. The work of Q.-C Zhong was supported in part by the Royal Academy of Engineering, by the Leverhulme Trust, with the award of a Senior Research Fellowship (2009-2010), and by the EPSRC, U.K., with the support of the Network for New Academics in Control Engineering (New Ace, www.newace.org.uk) Grant EP/E055877/1 and the support under the DTA scheme.",

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N2 - In this paper, the idea of operating an inverter to mimic a synchronous generator (SG) is motivated and developed. We call the inverters that are operated in this way synchronverters. Using synchronverters, the well-established theory/algorithms used to control SGs can still be used in power systems where a significant proportion of the generating capacity is inverter-based. We describe the dynamics, implementation, and operation of synchronverters. The real and reactive power delivered by synchronverters connected in parallel and operated as generators can be automatically shared using the well-known frequency- and voltage-drooping mechanisms. Synchronverters can be easily operated also in island mode, and hence, they provide an ideal solution for microgrids or smart grids. Both simulation and experimental results are given to verify the idea.

AB - In this paper, the idea of operating an inverter to mimic a synchronous generator (SG) is motivated and developed. We call the inverters that are operated in this way synchronverters. Using synchronverters, the well-established theory/algorithms used to control SGs can still be used in power systems where a significant proportion of the generating capacity is inverter-based. We describe the dynamics, implementation, and operation of synchronverters. The real and reactive power delivered by synchronverters connected in parallel and operated as generators can be automatically shared using the well-known frequency- and voltage-drooping mechanisms. Synchronverters can be easily operated also in island mode, and hence, they provide an ideal solution for microgrids or smart grids. Both simulation and experimental results are given to verify the idea.

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Synchronverters: Inverters that mimic synchronous generators

Abstract

Keywords

All Science Journal Classification (ASJC) codes

UN SDGs

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