An optimal power control strategy for grid-following inverters in a synchronous frame

Juan F. Patarroyo-Montenegro; Jesus D. Vasquez-Plaza; Fabio Andrade; Lingling Fan

doi:10.3390/app10196730

An optimal power control strategy for grid-following inverters in a synchronous frame

Juan F. Patarroyo-Montenegro
, Jesus D. Vasquez-Plaza
, Fabio Andrade
, Lingling Fan

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

7 Scopus citations

Abstract

This work proposes a power control strategy based on the linear quadratic regulator with optimal reference tracking (LQR-ORT) for a three-phase inverter-based generator (IBG) using an LCL filter. The use of an LQR-ORT controller increases robustness margins and reduces the quadratic value of the power error and control inputs during transient response. A model in a synchronous reference frame that integrates power sharing and voltage–current (V–I) dynamics is also proposed. This model allows for analyzing closed-loop eigenvalue location and robustness margins. The proposed controller was compared against a classical droop approach using proportional-resonant controllers for the inner loops. Mathematical analysis and hardware-in-the-loop (HIL) experiments under variations in the LCL filter components demonstrate fulfillment of robustness and performance bounds of the LQR-ORT controller. Experimental results demonstrate accuracy of the proposed model and the effectiveness of the LQR-ORT controller in improving transient response, robustness, and power decoupling.

Original language	English
Article number	6730
Pages (from-to)	1-17
Number of pages	17
Journal	Applied Sciences (Switzerland)
Volume	10
Issue number	19
DOIs	https://doi.org/10.3390/app10196730
State	Published - Oct 1 2020
Externally published	Yes

Funding

This research was funded by the United States Department of Energy, grant number DE-SC0020281. Funding: This research was funded by the United States Department of Energy, grant number DE-SC0020281.

Keywords

Grid-following control
Hardware-in-the-loop experiment
LQR controller
Microgrids
Optimal control
Power control
Three-phase inverters

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10.3390/app10196730

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title = "An optimal power control strategy for grid-following inverters in a synchronous frame",

abstract = "This work proposes a power control strategy based on the linear quadratic regulator with optimal reference tracking (LQR-ORT) for a three-phase inverter-based generator (IBG) using an LCL filter. The use of an LQR-ORT controller increases robustness margins and reduces the quadratic value of the power error and control inputs during transient response. A model in a synchronous reference frame that integrates power sharing and voltage–current (V–I) dynamics is also proposed. This model allows for analyzing closed-loop eigenvalue location and robustness margins. The proposed controller was compared against a classical droop approach using proportional-resonant controllers for the inner loops. Mathematical analysis and hardware-in-the-loop (HIL) experiments under variations in the LCL filter components demonstrate fulfillment of robustness and performance bounds of the LQR-ORT controller. Experimental results demonstrate accuracy of the proposed model and the effectiveness of the LQR-ORT controller in improving transient response, robustness, and power decoupling.",

keywords = "Grid-following control, Hardware-in-the-loop experiment, LQR controller, Microgrids, Optimal control, Power control, Three-phase inverters",

author = "Patarroyo-Montenegro, \{Juan F.\} and Vasquez-Plaza, \{Jesus D.\} and Fabio Andrade and Lingling Fan",

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AU - Patarroyo-Montenegro, Juan F.

AU - Vasquez-Plaza, Jesus D.

AU - Andrade, Fabio

AU - Fan, Lingling

PY - 2020/10/1

Y1 - 2020/10/1

N2 - This work proposes a power control strategy based on the linear quadratic regulator with optimal reference tracking (LQR-ORT) for a three-phase inverter-based generator (IBG) using an LCL filter. The use of an LQR-ORT controller increases robustness margins and reduces the quadratic value of the power error and control inputs during transient response. A model in a synchronous reference frame that integrates power sharing and voltage–current (V–I) dynamics is also proposed. This model allows for analyzing closed-loop eigenvalue location and robustness margins. The proposed controller was compared against a classical droop approach using proportional-resonant controllers for the inner loops. Mathematical analysis and hardware-in-the-loop (HIL) experiments under variations in the LCL filter components demonstrate fulfillment of robustness and performance bounds of the LQR-ORT controller. Experimental results demonstrate accuracy of the proposed model and the effectiveness of the LQR-ORT controller in improving transient response, robustness, and power decoupling.

AB - This work proposes a power control strategy based on the linear quadratic regulator with optimal reference tracking (LQR-ORT) for a three-phase inverter-based generator (IBG) using an LCL filter. The use of an LQR-ORT controller increases robustness margins and reduces the quadratic value of the power error and control inputs during transient response. A model in a synchronous reference frame that integrates power sharing and voltage–current (V–I) dynamics is also proposed. This model allows for analyzing closed-loop eigenvalue location and robustness margins. The proposed controller was compared against a classical droop approach using proportional-resonant controllers for the inner loops. Mathematical analysis and hardware-in-the-loop (HIL) experiments under variations in the LCL filter components demonstrate fulfillment of robustness and performance bounds of the LQR-ORT controller. Experimental results demonstrate accuracy of the proposed model and the effectiveness of the LQR-ORT controller in improving transient response, robustness, and power decoupling.

KW - Grid-following control

KW - Hardware-in-the-loop experiment

KW - LQR controller

KW - Microgrids

KW - Optimal control

KW - Power control

KW - Three-phase inverters

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M1 - 6730

ER -

An optimal power control strategy for grid-following inverters in a synchronous frame

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