2019
DOI: 10.3390/en12142674
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Identification of Three-Phase Grid Impedance in the Presence of Parallel Converters

Abstract: Grid impedance is an important parameter which affects the control performance of grid-connected power converters. Several methods already exist for optimizing the converter control system based on knowledge of grid impedance value. Grid impedance may change rapidly due to fault or disconnection of a transmission line. Therefore, online grid identification methods have been recently proposed to have up-to-date information about the grid impedance value. This is usually done by perturbing the converter output c… Show more

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Cited by 15 publications
(14 citation statements)
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“…The influence of grid impedance which is an important parameter affecting the control performance of grid-connected power converters is addressed in [6] by Luhtala et al This paper points out challenges and errors in grid impedance identification, caused by parallel converters and their internal control functions, such as grid-voltage support. Experimental grid-impedance measurements are shown from the power hardware-in-the-loop setup developed at DNV-GL Flexible Power Grid Lab.…”
Section: Published Papers Highlightsmentioning
confidence: 99%
“…The influence of grid impedance which is an important parameter affecting the control performance of grid-connected power converters is addressed in [6] by Luhtala et al This paper points out challenges and errors in grid impedance identification, caused by parallel converters and their internal control functions, such as grid-voltage support. Experimental grid-impedance measurements are shown from the power hardware-in-the-loop setup developed at DNV-GL Flexible Power Grid Lab.…”
Section: Published Papers Highlightsmentioning
confidence: 99%
“…Therefore, a straightforward approach to characterize the grid impedance is to apply what is called harmonic linearization [1] at every desired frequency (ω). Here, the impedance identification is performed based on the positive-sequence measurements (v + (ω), i + (ω)), as expressed in Equation (16).…”
Section: Grid Impedance Estimation Based On Prbs Injectionmentioning
confidence: 99%
“…This cost effective approach requires no extra hardware, such as a network impedance analyzer. The grid impedance information can be used to enhance the operation of grid-connected inverters, e.g., online stability analysis [7,8], voltage control [9], adaptive current controller [10], low voltage ride through [11], anti-islanding detection of grid-connected inverters [12][13][14][15], and analysis of multi-parallel inverters system [16][17][18].…”
Section: Introductionmentioning
confidence: 99%
“…For grid‐connected operations, the control tuning process requires the knowledge of the grid impedance in order to avoid stability issues, as well as to provide a satisfactory dynamic response [5], making previous studies necessary in order to characterise the system. In applications involving weak grids, there is a specific concern regarding the stability issues due to the interaction of the closed‐loop control performance with the grid itself, which becomes more relevant by considering the sampling, processing and pulse‐width modulation (PWM) delay effects [6–10], thus, emphasising on the need of a previous study regarding the grid's modelling.…”
Section: Introductionmentioning
confidence: 99%