Use of model predictive controller in dual-loop control of three-phase PWM AC/DC converter

Seok Kyoon Kim; Sung Yong Son; Young Il Lee

doi:10.1007/s12555-013-0278-3

Use of model predictive controller in dual-loop control of three-phase PWM AC/DC converter

Seok Kyoon Kim, Sung Yong Son, Young Il Lee

Dept. of Electrical and Information Engineering

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

13 Scopus citations

Abstract

In the classical dual-loop voltage control scheme for an AC/DC converter, this paper proposes a simple stabilizing inner-loop model predictive controller (MPC) to regulate the output current and q-frame current to their references. The proposed MPC minimizes a cost function of the tracking error without any use of numerical methods using the specific property of the input matrix of the converter. It is shown that this MPC globally stabilizes the converter in the presence of input constraints. As the same manner of the classical dual-loop control scheme, PI controllers are adopted in the outerloop to regulate the output voltage while maintaining the maximum power factor. The simulation results show that the proposed inner-loop MPC considerably enhances the closed-loop performance despite the load changes.

Original language	English
Pages (from-to)	340-348
Number of pages	9
Journal	International Journal of Control, Automation and Systems
Volume	12
Issue number	2
DOIs	https://doi.org/10.1007/s12555-013-0278-3
State	Published - 1 Apr 2014

Keywords

AC/DC converter
current control
dual-loop control
input constraints
MPC

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10.1007/s12555-013-0278-3

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title = "Use of model predictive controller in dual-loop control of three-phase PWM AC/DC converter",

abstract = "In the classical dual-loop voltage control scheme for an AC/DC converter, this paper proposes a simple stabilizing inner-loop model predictive controller (MPC) to regulate the output current and q-frame current to their references. The proposed MPC minimizes a cost function of the tracking error without any use of numerical methods using the specific property of the input matrix of the converter. It is shown that this MPC globally stabilizes the converter in the presence of input constraints. As the same manner of the classical dual-loop control scheme, PI controllers are adopted in the outerloop to regulate the output voltage while maintaining the maximum power factor. The simulation results show that the proposed inner-loop MPC considerably enhances the closed-loop performance despite the load changes.",

keywords = "AC/DC converter, current control, dual-loop control, input constraints, MPC",

author = "Kim, \{Seok Kyoon\} and Son, \{Sung Yong\} and Lee, \{Young Il\}",

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AU - Kim, Seok Kyoon

AU - Son, Sung Yong

AU - Lee, Young Il

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Y1 - 2014/4/1

N2 - In the classical dual-loop voltage control scheme for an AC/DC converter, this paper proposes a simple stabilizing inner-loop model predictive controller (MPC) to regulate the output current and q-frame current to their references. The proposed MPC minimizes a cost function of the tracking error without any use of numerical methods using the specific property of the input matrix of the converter. It is shown that this MPC globally stabilizes the converter in the presence of input constraints. As the same manner of the classical dual-loop control scheme, PI controllers are adopted in the outerloop to regulate the output voltage while maintaining the maximum power factor. The simulation results show that the proposed inner-loop MPC considerably enhances the closed-loop performance despite the load changes.

AB - In the classical dual-loop voltage control scheme for an AC/DC converter, this paper proposes a simple stabilizing inner-loop model predictive controller (MPC) to regulate the output current and q-frame current to their references. The proposed MPC minimizes a cost function of the tracking error without any use of numerical methods using the specific property of the input matrix of the converter. It is shown that this MPC globally stabilizes the converter in the presence of input constraints. As the same manner of the classical dual-loop control scheme, PI controllers are adopted in the outerloop to regulate the output voltage while maintaining the maximum power factor. The simulation results show that the proposed inner-loop MPC considerably enhances the closed-loop performance despite the load changes.

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Use of model predictive controller in dual-loop control of three-phase PWM AC/DC converter

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