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Hauptverfasser: Pourhadi, Pouyan, Tashakor, Nima, Bayati, Mahdi, Goetz, Stefan
Format: Preprint
Veröffentlicht: 2024
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2412.18017
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author Pourhadi, Pouyan
Tashakor, Nima
Bayati, Mahdi
Goetz, Stefan
author_facet Pourhadi, Pouyan
Tashakor, Nima
Bayati, Mahdi
Goetz, Stefan
contents Integrating power electronics with batteries can offer many advantages, including load sharing and balancing with parallel connectivity. However, parallel batteries with differing voltages and power profiles can cause large circulating currents and uncontrolled energy transfers, risking system instability. To overcome these challenges, we propose a novel modular reconfigurable topology for AC batteries with coupled inductors between adjacent submodules. This approach dynamically manages energy distribution between energy and power modules. Under normal conditions, energy modules operate in series or parallel configurations to deliver stable voltage and current, ensuring efficient power delivery. During heavy loads, such as during electric-vehicle acceleration, power modules seamlessly meet additional power demands beyond the energy modules' capacity. The use of mutual inductors reduces inductance along the load path for faster response times while providing sufficient inductance to regulate circulating currents and enable efficient energy transfer among modules. The system's AC load further complicates control, necessitating a simple yet effective feedforward-feedback control strategy to maintain satisfactory performance.
format Preprint
id arxiv_https___arxiv_org_abs_2412_18017
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Dynamic Power Management in Modular Reconfigurable Battery Systems with Energy and Power Modules
Pourhadi, Pouyan
Tashakor, Nima
Bayati, Mahdi
Goetz, Stefan
Systems and Control
Integrating power electronics with batteries can offer many advantages, including load sharing and balancing with parallel connectivity. However, parallel batteries with differing voltages and power profiles can cause large circulating currents and uncontrolled energy transfers, risking system instability. To overcome these challenges, we propose a novel modular reconfigurable topology for AC batteries with coupled inductors between adjacent submodules. This approach dynamically manages energy distribution between energy and power modules. Under normal conditions, energy modules operate in series or parallel configurations to deliver stable voltage and current, ensuring efficient power delivery. During heavy loads, such as during electric-vehicle acceleration, power modules seamlessly meet additional power demands beyond the energy modules' capacity. The use of mutual inductors reduces inductance along the load path for faster response times while providing sufficient inductance to regulate circulating currents and enable efficient energy transfer among modules. The system's AC load further complicates control, necessitating a simple yet effective feedforward-feedback control strategy to maintain satisfactory performance.
title Dynamic Power Management in Modular Reconfigurable Battery Systems with Energy and Power Modules
topic Systems and Control
url https://arxiv.org/abs/2412.18017