Sliding Modes in Three-Phase Switching Power Converters Control

Nadira Šabanovič-Behlilovič; Šabanovieč Asif; Ohnishi Kouhei

doi:10.1541/ieejias.113.883

Sliding Modes in Three-Phase Switching Power Converters Control

Nadira Šabanovič-Behlilovič, Šabanovieč Asif, Ohnishi Kouhei

Department of System Design Engineering

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

1 Citation (Scopus)

Abstract

A new control technique for voltage-fed and current-fed PWM three-phase converters (inverters and rectifiers) is presented. Approach is based on the application of the sliding mode design methods. A general mathematical description of the three-phase converters (buck and boost inverters and rectifiers) is developed. On the basis of this description the sliding mode controller is designed to obtain optimal PWM and desired closed-loop dynamics. Both, the PWM switching pattern and the closed-loop dynamics are addressed as a single control problem and the output of the controller provides direct commands for the converter's switches. It is shown that the same controller can be applied for all analyzed converters. The controller has a simple structure and is suitable for digital implementation. Simulation results are provided to confirm theoretical predictions.

Original language	English
Pages (from-to)	883-890
Number of pages	8
Journal	ieej transactions on industry applications
Volume	113
Issue number	7
DOIs	https://doi.org/10.1541/ieejias.113.883
Publication status	Published - 1993 Jan

ASJC Scopus subject areas

Industrial and Manufacturing Engineering
Electrical and Electronic Engineering

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abstract = "A new control technique for voltage-fed and current-fed PWM three-phase converters (inverters and rectifiers) is presented. Approach is based on the application of the sliding mode design methods. A general mathematical description of the three-phase converters (buck and boost inverters and rectifiers) is developed. On the basis of this description the sliding mode controller is designed to obtain optimal PWM and desired closed-loop dynamics. Both, the PWM switching pattern and the closed-loop dynamics are addressed as a single control problem and the output of the controller provides direct commands for the converter's switches. It is shown that the same controller can be applied for all analyzed converters. The controller has a simple structure and is suitable for digital implementation. Simulation results are provided to confirm theoretical predictions.",

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AU - Šabanovič-Behlilovič, Nadira

AU - Asif, Šabanovieč

AU - Kouhei, Ohnishi

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N2 - A new control technique for voltage-fed and current-fed PWM three-phase converters (inverters and rectifiers) is presented. Approach is based on the application of the sliding mode design methods. A general mathematical description of the three-phase converters (buck and boost inverters and rectifiers) is developed. On the basis of this description the sliding mode controller is designed to obtain optimal PWM and desired closed-loop dynamics. Both, the PWM switching pattern and the closed-loop dynamics are addressed as a single control problem and the output of the controller provides direct commands for the converter's switches. It is shown that the same controller can be applied for all analyzed converters. The controller has a simple structure and is suitable for digital implementation. Simulation results are provided to confirm theoretical predictions.

AB - A new control technique for voltage-fed and current-fed PWM three-phase converters (inverters and rectifiers) is presented. Approach is based on the application of the sliding mode design methods. A general mathematical description of the three-phase converters (buck and boost inverters and rectifiers) is developed. On the basis of this description the sliding mode controller is designed to obtain optimal PWM and desired closed-loop dynamics. Both, the PWM switching pattern and the closed-loop dynamics are addressed as a single control problem and the output of the controller provides direct commands for the converter's switches. It is shown that the same controller can be applied for all analyzed converters. The controller has a simple structure and is suitable for digital implementation. Simulation results are provided to confirm theoretical predictions.

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Sliding Modes in Three-Phase Switching Power Converters Control

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