A High-Performance Hybrid Active Switched Reactance Converter for Fuel Cell Electric Vehicles

Md Samiullah; Ali T. Al-Awami

doi:10.1109/iSPEC59716.2024.10892528

A High-Performance Hybrid Active Switched Reactance Converter for Fuel Cell Electric Vehicles

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

This article introduces a novel high-performance DC-DC converter topology specifically designed for fuel cell electric vehicle (FCEV) applications in line with global efforts to advance clean and green energy solutions. The proposed converter, named the Hybrid Active Switched Reactance Converter (HASRC), eliminates the need for cascaded architectures or coupled inductors, instead utilizing a unique combination of switched-inductor (SL) and switched-capacitor (SC) modules to achieve substantial voltage boosting. The HASRC is proposed and developed to deliver high output voltage while effectively minimizing voltage stress across critical components, particularly the output diode and the semiconductor switches. The converter's design allows for further voltage extension without requiring additional circuitry for peak inverse voltage (PIV) suppression, ensuring continuous input and output currents and stable outputs over a wide range of dynamic uncertainties. This makes the HASRC especially well-suited for FCEV applications, where power density, efficiency, and reliability are paramount. The converter's performance is rigorously analyzed, and its effectiveness is demonstrated through the development of a hardware prototype capable of handling up to 400W at a switching frequency of 50kHz.

Original language	English
Title of host publication	2024 IEEE Sustainable Power and Energy Conference, iSPEC 2024
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	624-629
Number of pages	6
ISBN (Electronic)	9798350395075
DOIs	https://doi.org/10.1109/iSPEC59716.2024.10892528
State	Published - 2024
Event	2024 IEEE Sustainable Power and Energy Conference, iSPEC 2024 - Kuching, Malaysia Duration: 24 Nov 2024 → 27 Nov 2024

Publication series

Name	2024 IEEE Sustainable Power and Energy Conference, iSPEC 2024

Conference

Conference	2024 IEEE Sustainable Power and Energy Conference, iSPEC 2024
Country/Territory	Malaysia
City	Kuching
Period	24/11/24 → 27/11/24

Bibliographical note

Publisher Copyright:
© 2024 IEEE.

Keywords

DC-DC conversion
Fuel cell EVs
High voltage applications
Hydrogen

ASJC Scopus subject areas

Transportation
Renewable Energy, Sustainability and the Environment
Electrical and Electronic Engineering
Control and Optimization
Modeling and Simulation
Energy Engineering and Power Technology

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1109/iSPEC59716.2024.10892528

Cite this

Samiullah, M., & Al-Awami, A. T. (2024). A High-Performance Hybrid Active Switched Reactance Converter for Fuel Cell Electric Vehicles. In 2024 IEEE Sustainable Power and Energy Conference, iSPEC 2024 (pp. 624-629). (2024 IEEE Sustainable Power and Energy Conference, iSPEC 2024). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/iSPEC59716.2024.10892528

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title = "A High-Performance Hybrid Active Switched Reactance Converter for Fuel Cell Electric Vehicles",

abstract = "This article introduces a novel high-performance DC-DC converter topology specifically designed for fuel cell electric vehicle (FCEV) applications in line with global efforts to advance clean and green energy solutions. The proposed converter, named the Hybrid Active Switched Reactance Converter (HASRC), eliminates the need for cascaded architectures or coupled inductors, instead utilizing a unique combination of switched-inductor (SL) and switched-capacitor (SC) modules to achieve substantial voltage boosting. The HASRC is proposed and developed to deliver high output voltage while effectively minimizing voltage stress across critical components, particularly the output diode and the semiconductor switches. The converter's design allows for further voltage extension without requiring additional circuitry for peak inverse voltage (PIV) suppression, ensuring continuous input and output currents and stable outputs over a wide range of dynamic uncertainties. This makes the HASRC especially well-suited for FCEV applications, where power density, efficiency, and reliability are paramount. The converter's performance is rigorously analyzed, and its effectiveness is demonstrated through the development of a hardware prototype capable of handling up to 400W at a switching frequency of 50kHz.",

keywords = "DC-DC conversion, Fuel cell EVs, High voltage applications, Hydrogen",

author = "Md Samiullah and Al-Awami, \{Ali T.\}",

note = "Publisher Copyright: {\textcopyright} 2024 IEEE.; 2024 IEEE Sustainable Power and Energy Conference, iSPEC 2024 ; Conference date: 24-11-2024 Through 27-11-2024",

year = "2024",

doi = "10.1109/iSPEC59716.2024.10892528",

language = "English",

series = "2024 IEEE Sustainable Power and Energy Conference, iSPEC 2024",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

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}

Samiullah, M & Al-Awami, AT 2024, A High-Performance Hybrid Active Switched Reactance Converter for Fuel Cell Electric Vehicles. in 2024 IEEE Sustainable Power and Energy Conference, iSPEC 2024. 2024 IEEE Sustainable Power and Energy Conference, iSPEC 2024, Institute of Electrical and Electronics Engineers Inc., pp. 624-629, 2024 IEEE Sustainable Power and Energy Conference, iSPEC 2024, Kuching, Malaysia, 24/11/24. https://doi.org/10.1109/iSPEC59716.2024.10892528

A High-Performance Hybrid Active Switched Reactance Converter for Fuel Cell Electric Vehicles. / Samiullah, Md ; Al-Awami, Ali T.
2024 IEEE Sustainable Power and Energy Conference, iSPEC 2024. Institute of Electrical and Electronics Engineers Inc., 2024. p. 624-629 (2024 IEEE Sustainable Power and Energy Conference, iSPEC 2024).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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N2 - This article introduces a novel high-performance DC-DC converter topology specifically designed for fuel cell electric vehicle (FCEV) applications in line with global efforts to advance clean and green energy solutions. The proposed converter, named the Hybrid Active Switched Reactance Converter (HASRC), eliminates the need for cascaded architectures or coupled inductors, instead utilizing a unique combination of switched-inductor (SL) and switched-capacitor (SC) modules to achieve substantial voltage boosting. The HASRC is proposed and developed to deliver high output voltage while effectively minimizing voltage stress across critical components, particularly the output diode and the semiconductor switches. The converter's design allows for further voltage extension without requiring additional circuitry for peak inverse voltage (PIV) suppression, ensuring continuous input and output currents and stable outputs over a wide range of dynamic uncertainties. This makes the HASRC especially well-suited for FCEV applications, where power density, efficiency, and reliability are paramount. The converter's performance is rigorously analyzed, and its effectiveness is demonstrated through the development of a hardware prototype capable of handling up to 400W at a switching frequency of 50kHz.

AB - This article introduces a novel high-performance DC-DC converter topology specifically designed for fuel cell electric vehicle (FCEV) applications in line with global efforts to advance clean and green energy solutions. The proposed converter, named the Hybrid Active Switched Reactance Converter (HASRC), eliminates the need for cascaded architectures or coupled inductors, instead utilizing a unique combination of switched-inductor (SL) and switched-capacitor (SC) modules to achieve substantial voltage boosting. The HASRC is proposed and developed to deliver high output voltage while effectively minimizing voltage stress across critical components, particularly the output diode and the semiconductor switches. The converter's design allows for further voltage extension without requiring additional circuitry for peak inverse voltage (PIV) suppression, ensuring continuous input and output currents and stable outputs over a wide range of dynamic uncertainties. This makes the HASRC especially well-suited for FCEV applications, where power density, efficiency, and reliability are paramount. The converter's performance is rigorously analyzed, and its effectiveness is demonstrated through the development of a hardware prototype capable of handling up to 400W at a switching frequency of 50kHz.

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ER -

A High-Performance Hybrid Active Switched Reactance Converter for Fuel Cell Electric Vehicles

Abstract

Publication series

Conference

Bibliographical note

Keywords

ASJC Scopus subject areas

UN SDGs

Access to Document

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Cite this