Balancing Multiphase FCML Converters With Coupled Inductors: Modeling, Analysis, Limitations

Daniel H. Zhou; Janko Celikovic; Dragan Maksimovic; Minjie Chen

doi:10.1109/TPEL.2024.3393861

Balancing Multiphase FCML Converters With Coupled Inductors: Modeling, Analysis, Limitations

Daniel H. Zhou, Janko Celikovic, Dragan Maksimovic, Minjie Chen

Princeton University

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

Abstract

This article investigates the modeling, analysis, and design methods for passively balancing flying capacitor multilevel (FCML) converters using coupled inductors. Coupled inductors synergize with FCML converters by reducing inductor current ripple, reducing switch stress, and, as proven in this article, by providing flying capacitor voltage balancing. This enables FCML topologies to be scaled well to larger systems. This article proves that coupled inductors can solve the unbalancing problem in many FCML converters. Moreover, tools are developed to thoroughly explain and quantify coupled inductor balancing, allowing general design guidelines to be offered for robust coupled inductor FCML converters. Finally, this article derives the limitations of coupled inductor balancing with respect to the number of phases, levels, and the required coupling ratio. The key principles of coupled inductor FCML balancing in steady state are demonstrated with a systematic theoretical framework and extensive experimental and simulation results.

Original language	American English
Pages (from-to)	9268-9291
Number of pages	24
Journal	IEEE Transactions on Power Electronics
Volume	39
Issue number	8
DOIs	https://doi.org/10.1109/TPEL.2024.3393861
State	Published - Aug 1 2024

ASJC Scopus subject areas

Electrical and Electronic Engineering

Keywords

Charge balancing
coupled inductors
feedback mechanism
flying capacitor multilevel (FCML) converter
natural balancing
passive voltage balancing

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10.1109/TPEL.2024.3393861

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title = "Balancing Multiphase FCML Converters With Coupled Inductors: Modeling, Analysis, Limitations",

abstract = "This article investigates the modeling, analysis, and design methods for passively balancing flying capacitor multilevel (FCML) converters using coupled inductors. Coupled inductors synergize with FCML converters by reducing inductor current ripple, reducing switch stress, and, as proven in this article, by providing flying capacitor voltage balancing. This enables FCML topologies to be scaled well to larger systems. This article proves that coupled inductors can solve the unbalancing problem in many FCML converters. Moreover, tools are developed to thoroughly explain and quantify coupled inductor balancing, allowing general design guidelines to be offered for robust coupled inductor FCML converters. Finally, this article derives the limitations of coupled inductor balancing with respect to the number of phases, levels, and the required coupling ratio. The key principles of coupled inductor FCML balancing in steady state are demonstrated with a systematic theoretical framework and extensive experimental and simulation results.",

keywords = "Charge balancing, coupled inductors, feedback mechanism, flying capacitor multilevel (FCML) converter, natural balancing, passive voltage balancing",

author = "Zhou, {Daniel H.} and Janko Celikovic and Dragan Maksimovic and Minjie Chen",

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AU - Chen, Minjie

PY - 2024/8/1

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N2 - This article investigates the modeling, analysis, and design methods for passively balancing flying capacitor multilevel (FCML) converters using coupled inductors. Coupled inductors synergize with FCML converters by reducing inductor current ripple, reducing switch stress, and, as proven in this article, by providing flying capacitor voltage balancing. This enables FCML topologies to be scaled well to larger systems. This article proves that coupled inductors can solve the unbalancing problem in many FCML converters. Moreover, tools are developed to thoroughly explain and quantify coupled inductor balancing, allowing general design guidelines to be offered for robust coupled inductor FCML converters. Finally, this article derives the limitations of coupled inductor balancing with respect to the number of phases, levels, and the required coupling ratio. The key principles of coupled inductor FCML balancing in steady state are demonstrated with a systematic theoretical framework and extensive experimental and simulation results.

AB - This article investigates the modeling, analysis, and design methods for passively balancing flying capacitor multilevel (FCML) converters using coupled inductors. Coupled inductors synergize with FCML converters by reducing inductor current ripple, reducing switch stress, and, as proven in this article, by providing flying capacitor voltage balancing. This enables FCML topologies to be scaled well to larger systems. This article proves that coupled inductors can solve the unbalancing problem in many FCML converters. Moreover, tools are developed to thoroughly explain and quantify coupled inductor balancing, allowing general design guidelines to be offered for robust coupled inductor FCML converters. Finally, this article derives the limitations of coupled inductor balancing with respect to the number of phases, levels, and the required coupling ratio. The key principles of coupled inductor FCML balancing in steady state are demonstrated with a systematic theoretical framework and extensive experimental and simulation results.

KW - Charge balancing

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KW - feedback mechanism

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Balancing Multiphase FCML Converters With Coupled Inductors: Modeling, Analysis, Limitations

Abstract

ASJC Scopus subject areas

Keywords

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