A New Control Technique for Improved Active-Neutral-Point-Clamped (I-ANPC) Multilevel Converters Using Logic-Equations Approach

Vahid Dargahi; Arash Khoshkbar Sadigh; Keith A. Corzine; Johan H. Enslin; Jose Rodriguez; Frede Blaabjerg

doi:10.1109/TIA.2019.2952316

A New Control Technique for Improved Active-Neutral-Point-Clamped (I-ANPC) Multilevel Converters Using Logic-Equations Approach

Vahid Dargahi, Arash Khoshkbar Sadigh, Keith A. Corzine, Johan H. Enslin, Jose Rodriguez, Frede Blaabjerg

Resultado de la investigación: Contribución a una revista › Artículo › revisión exhaustiva

19 Citas (Scopus)

Resumen

The per-phase leg of an improved active-neutral-point-clamped (I-ANPC) multilevel converter is realized by the cascaded connection of the standard ANPC topology and the concatenated H-bridge modules consisting of the flying-capacitors (FCs). This article proposes an innovative approach for the active control of the I-ANPC inverters. The introduced methodology is developed on the basis of the logic-equations set for the active voltage balancing of the FCs within the H-bridge modules, and controlling the generated output voltage. It derives logic-variables employing the direction of the output current, and the deviation of the FCs' voltages from their target operating levels in the H-bridge cells. These logic-variables are fed into a set of logic-equations derived for the control of the I-ANPC inverter. The regulation of the floating-capacitor voltages at their reference values along with synthesizing the required pulsewidth modulation voltage-level at the output having fast dynamics are the control objectives to achieve. The derived logic-equations and the proposed control method are explored and verified by the experimentally measured results obtained from the 5-kW prototype of a five-level converter.

Idioma original	Inglés
Número de artículo	8894554
Páginas (desde-hasta)	488-497
Número de páginas	10
Publicación	IEEE Transactions on Industry Applications
Volumen	56
N.º	1
DOI	https://doi.org/10.1109/TIA.2019.2952316
Estado	Publicada - 1 ene. 2020

Áreas temáticas de ASJC Scopus

Ingeniería de control y sistemas
Ingeniería industrial y de fabricación
Ingeniería eléctrica y electrónica

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title = "A New Control Technique for Improved Active-Neutral-Point-Clamped (I-ANPC) Multilevel Converters Using Logic-Equations Approach",

abstract = "The per-phase leg of an improved active-neutral-point-clamped (I-ANPC) multilevel converter is realized by the cascaded connection of the standard ANPC topology and the concatenated H-bridge modules consisting of the flying-capacitors (FCs). This article proposes an innovative approach for the active control of the I-ANPC inverters. The introduced methodology is developed on the basis of the logic-equations set for the active voltage balancing of the FCs within the H-bridge modules, and controlling the generated output voltage. It derives logic-variables employing the direction of the output current, and the deviation of the FCs' voltages from their target operating levels in the H-bridge cells. These logic-variables are fed into a set of logic-equations derived for the control of the I-ANPC inverter. The regulation of the floating-capacitor voltages at their reference values along with synthesizing the required pulsewidth modulation voltage-level at the output having fast dynamics are the control objectives to achieve. The derived logic-equations and the proposed control method are explored and verified by the experimentally measured results obtained from the 5-kW prototype of a five-level converter.",

keywords = "Active voltage control, fast-dynamics, floating-capacitor (FC), improved active-neutral-point-clamped (I-ANPC) converter, logic-equations, phase-disposition pulsewidth modulation (PD-PWM), phase-shifted-carrier pulsewidth modulation (PSC-PWM)",

author = "Vahid Dargahi and Sadigh, {Arash Khoshkbar} and Corzine, {Keith A.} and Enslin, {Johan H.} and Jose Rodriguez and Frede Blaabjerg",

note = "Funding Information: Manuscript received September 5, 2018; revised August 16, 2019; accepted October 7, 2019. Date of publication November 7, 2019; date of current version January 16, 2020. Paper 2018-IPCC-0911.R1, presented at the 2018 IEEE Power and Energy Conference at Illinois (PECI), Champaign, IL, USA, Feb. 22–23, 2018, and approved for publication in the IEEE TRANSACTIONS ON INDUSTRY APPLICATIONS by the Industrial Power Converter Committee of the IEEE Industry Applications Society. (Corresponding author: Vahid Dargahi.) This work was supported by Concyt through projects FB0008 and 1170167. Publisher Copyright: {\textcopyright} 1972-2012 IEEE.",

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doi = "10.1109/TIA.2019.2952316",

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A New Control Technique for Improved Active-Neutral-Point-Clamped (I-ANPC) Multilevel Converters Using Logic-Equations Approach. / Dargahi, Vahid; Sadigh, Arash Khoshkbar; Corzine, Keith A. et al.
En: IEEE Transactions on Industry Applications, Vol. 56, N.º 1, 8894554, 01.01.2020, p. 488-497.

Resultado de la investigación: Contribución a una revista › Artículo › revisión exhaustiva

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AU - Dargahi, Vahid

AU - Sadigh, Arash Khoshkbar

AU - Corzine, Keith A.

AU - Enslin, Johan H.

AU - Rodriguez, Jose

AU - Blaabjerg, Frede

N1 - Funding Information: Manuscript received September 5, 2018; revised August 16, 2019; accepted October 7, 2019. Date of publication November 7, 2019; date of current version January 16, 2020. Paper 2018-IPCC-0911.R1, presented at the 2018 IEEE Power and Energy Conference at Illinois (PECI), Champaign, IL, USA, Feb. 22–23, 2018, and approved for publication in the IEEE TRANSACTIONS ON INDUSTRY APPLICATIONS by the Industrial Power Converter Committee of the IEEE Industry Applications Society. (Corresponding author: Vahid Dargahi.) This work was supported by Concyt through projects FB0008 and 1170167. Publisher Copyright: © 1972-2012 IEEE.

PY - 2020/1/1

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N2 - The per-phase leg of an improved active-neutral-point-clamped (I-ANPC) multilevel converter is realized by the cascaded connection of the standard ANPC topology and the concatenated H-bridge modules consisting of the flying-capacitors (FCs). This article proposes an innovative approach for the active control of the I-ANPC inverters. The introduced methodology is developed on the basis of the logic-equations set for the active voltage balancing of the FCs within the H-bridge modules, and controlling the generated output voltage. It derives logic-variables employing the direction of the output current, and the deviation of the FCs' voltages from their target operating levels in the H-bridge cells. These logic-variables are fed into a set of logic-equations derived for the control of the I-ANPC inverter. The regulation of the floating-capacitor voltages at their reference values along with synthesizing the required pulsewidth modulation voltage-level at the output having fast dynamics are the control objectives to achieve. The derived logic-equations and the proposed control method are explored and verified by the experimentally measured results obtained from the 5-kW prototype of a five-level converter.

AB - The per-phase leg of an improved active-neutral-point-clamped (I-ANPC) multilevel converter is realized by the cascaded connection of the standard ANPC topology and the concatenated H-bridge modules consisting of the flying-capacitors (FCs). This article proposes an innovative approach for the active control of the I-ANPC inverters. The introduced methodology is developed on the basis of the logic-equations set for the active voltage balancing of the FCs within the H-bridge modules, and controlling the generated output voltage. It derives logic-variables employing the direction of the output current, and the deviation of the FCs' voltages from their target operating levels in the H-bridge cells. These logic-variables are fed into a set of logic-equations derived for the control of the I-ANPC inverter. The regulation of the floating-capacitor voltages at their reference values along with synthesizing the required pulsewidth modulation voltage-level at the output having fast dynamics are the control objectives to achieve. The derived logic-equations and the proposed control method are explored and verified by the experimentally measured results obtained from the 5-kW prototype of a five-level converter.

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KW - improved active-neutral-point-clamped (I-ANPC) converter

KW - logic-equations

KW - phase-disposition pulsewidth modulation (PD-PWM)

KW - phase-shifted-carrier pulsewidth modulation (PSC-PWM)

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A New Control Technique for Improved Active-Neutral-Point-Clamped (I-ANPC) Multilevel Converters Using Logic-Equations Approach

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