Fractional Order Pole Placement for a buck converter based on commensurable transfer function

In this work, a novel methodology for tuning fractional order controller, so-called fractional order pole placement (FOPP) is proposed. The proposed methodology extends classical (integer order) pole placement technique, using commensurable transfer functions for representing fractional order contro...

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Published inISA transactions Vol. 107; pp. 370 - 384
Main Authors Ayres, Florindo A. de C., Bessa, Iury, Pereira, Vinicius Matheus Batista, da Silva Farias, Nei Junior, de Menezes, Alessandra Ribeiro, de Medeiros, Renan L.P., Chaves, João Edgar, Lenzi, Marcelo K., da Costa, Carlos Tavares
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2020
Subjects
Commensurable Order Transfer Functions
DC/DC power converter
Fractional order control
Fractional Order Pole Placement
Fractional order three terms transfer function
Pseudo damping factor
Fractional Order Pole Placement
Fractional order three terms transfer function
Fractional order control
DC/DC power converter
Pseudo damping factor
Commensurable Order Transfer Functions
Online AccessGet full text
ISSN0019-0578
1879-2022
1879-2022
DOI10.1016/j.isatra.2020.07.034

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Abstract In this work, a novel methodology for tuning fractional order controller, so-called fractional order pole placement (FOPP) is proposed. The proposed methodology extends classical (integer order) pole placement technique, using commensurable transfer functions for representing fractional order controllers and placing the fractional dominant poles within an extended stability region based on three terms fractional transfer functions. The designed fractional order controller can be digitally implemented by using the Oustaloup integer approximation of the fractional order dynamics with Hankel model reduction. The proposed FOPP is used to design fractional order controllers for a DC/DC buck converter. The experimental tests include comparisons between the proposed FOPP and other tuning methodologies for integer and fractional order controllers for the DC/DC buck converter that is subject to load, parametric, and load variations. Integral indices are computed to aid the assessment of the control strategies with respect to the robustness, performance specification compliance, and control effort. The results show that the proposed method outperforms the other approaches when occurs the variations. •A novel methodology for fractional order pole placement (FOPP) is proposed.•The fractional damping and order are chosen to ensure the desired performance.•The FOPP extends the stability region relaxing the design conditions.•The methodology is applied to a buck converter under parameter variations.•The FOPP is outperforms other integer and fractional order approaches.
AbstractList In this work, a novel methodology for tuning fractional order controller, so-called fractional order pole placement (FOPP) is proposed. The proposed methodology extends classical (integer order) pole placement technique, using commensurable transfer functions for representing fractional order controllers and placing the fractional dominant poles within an extended stability region based on three terms fractional transfer functions. The designed fractional order controller can be digitally implemented by using the Oustaloup integer approximation of the fractional order dynamics with Hankel model reduction. The proposed FOPP is used to design fractional order controllers for a DC/DC buck converter. The experimental tests include comparisons between the proposed FOPP and other tuning methodologies for integer and fractional order controllers for the DC/DC buck converter that is subject to load, parametric, and load variations. Integral indices are computed to aid the assessment of the control strategies with respect to the robustness, performance specification compliance, and control effort. The results show that the proposed method outperforms the other approaches when occurs the variations.In this work, a novel methodology for tuning fractional order controller, so-called fractional order pole placement (FOPP) is proposed. The proposed methodology extends classical (integer order) pole placement technique, using commensurable transfer functions for representing fractional order controllers and placing the fractional dominant poles within an extended stability region based on three terms fractional transfer functions. The designed fractional order controller can be digitally implemented by using the Oustaloup integer approximation of the fractional order dynamics with Hankel model reduction. The proposed FOPP is used to design fractional order controllers for a DC/DC buck converter. The experimental tests include comparisons between the proposed FOPP and other tuning methodologies for integer and fractional order controllers for the DC/DC buck converter that is subject to load, parametric, and load variations. Integral indices are computed to aid the assessment of the control strategies with respect to the robustness, performance specification compliance, and control effort. The results show that the proposed method outperforms the other approaches when occurs the variations.
In this work, a novel methodology for tuning fractional order controller, so-called fractional order pole placement (FOPP) is proposed. The proposed methodology extends classical (integer order) pole placement technique, using commensurable transfer functions for representing fractional order controllers and placing the fractional dominant poles within an extended stability region based on three terms fractional transfer functions. The designed fractional order controller can be digitally implemented by using the Oustaloup integer approximation of the fractional order dynamics with Hankel model reduction. The proposed FOPP is used to design fractional order controllers for a DC/DC buck converter. The experimental tests include comparisons between the proposed FOPP and other tuning methodologies for integer and fractional order controllers for the DC/DC buck converter that is subject to load, parametric, and load variations. Integral indices are computed to aid the assessment of the control strategies with respect to the robustness, performance specification compliance, and control effort. The results show that the proposed method outperforms the other approaches when occurs the variations. •A novel methodology for fractional order pole placement (FOPP) is proposed.•The fractional damping and order are chosen to ensure the desired performance.•The FOPP extends the stability region relaxing the design conditions.•The methodology is applied to a buck converter under parameter variations.•The FOPP is outperforms other integer and fractional order approaches.
Author de Medeiros, Renan L.P.
Pereira, Vinicius Matheus Batista
da Silva Farias, Nei Junior
Bessa, Iury
Chaves, João Edgar
de Menezes, Alessandra Ribeiro
Lenzi, Marcelo K.
da Costa, Carlos Tavares
Ayres, Florindo A. de C.
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Keywords Fractional Order Pole Placement
Fractional order three terms transfer function
Fractional order control
DC/DC power converter
Pseudo damping factor
Commensurable Order Transfer Functions
Language English
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Snippet In this work, a novel methodology for tuning fractional order controller, so-called fractional order pole placement (FOPP) is proposed. The proposed...
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SubjectTerms Commensurable Order Transfer Functions
DC/DC power converter
Fractional order control
Fractional Order Pole Placement
Fractional order three terms transfer function
Pseudo damping factor
Title Fractional Order Pole Placement for a buck converter based on commensurable transfer function
URI https://dx.doi.org/10.1016/j.isatra.2020.07.034
https://www.proquest.com/docview/2432862199
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