A ZVS Critical Current Tracing Modulation for Current-Fed Series Resonant Converters in Fuel Cell Vehicles

Jinghao Zheng; Junfeng Liu; Renjun Hu; Ningrui Yang; Yue Li; Jun Zeng; Zhixing Yan

doi:10.1109/TIE.2023.3335483

A ZVS Critical Current Tracing Modulation for Current-Fed Series Resonant Converters in Fuel Cell Vehicles

Jinghao Zheng, Junfeng Liu, Renjun Hu, Ningrui Yang, Yue Li, Jun Zeng, Zhixing Yan^*

^*Kontaktforfatter

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

Abstract

In this letter, the redundant circulating current is identified as the key factor leading to the degradation of the efficiency of current-fed series resonant converters at light loads, which limits their performance in fuel cell vehicles. To tackle this issue, a zero-voltage switching (ZVS) critical current tracing modulation is proposed for the current-fed series resonant converter. In the proposed method, the circulating current is adjusted to trace the critical circulating current for ZVS, and the excessive loss caused by the redundant circulating current can be suppressed. Finally, a 1-kW prototype is built to verify the effectiveness of the proposed modulation, and a maximal efficiency increase of 15.1% at light load is achieved.

Originalsprog	Engelsk
Tidsskrift	IEEE Transactions on Industrial Electronics
Vol/bind	71
Udgave nummer	9
Sider (fra-til)	1-6
Antal sider	6
ISSN	0278-0046
DOI	https://doi.org/10.1109/TIE.2023.3335483
Status	Udgivet - 2023

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Publisher Copyright:
© 2023 IEEE.

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10.1109/TIE.2023.3335483

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abstract = "In this letter, the redundant circulating current is identified as the key factor leading to the degradation of the efficiency of current-fed series resonant converters at light loads, which limits their performance in fuel cell vehicles. To tackle this issue, a zero-voltage switching (ZVS) critical current tracing modulation is proposed for the current-fed series resonant converter. In the proposed method, the circulating current is adjusted to trace the critical circulating current for ZVS, and the excessive loss caused by the redundant circulating current can be suppressed. Finally, a 1-kW prototype is built to verify the effectiveness of the proposed modulation, and a maximal efficiency increase of 15.1% at light load is achieved.",

author = "Jinghao Zheng and Junfeng Liu and Renjun Hu and Ningrui Yang and Yue Li and Jun Zeng and Zhixing Yan",

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AU - Zheng, Jinghao

AU - Liu, Junfeng

AU - Hu, Renjun

AU - Yang, Ningrui

AU - Li, Yue

AU - Zeng, Jun

AU - Yan, Zhixing

PY - 2023

Y1 - 2023

N2 - In this letter, the redundant circulating current is identified as the key factor leading to the degradation of the efficiency of current-fed series resonant converters at light loads, which limits their performance in fuel cell vehicles. To tackle this issue, a zero-voltage switching (ZVS) critical current tracing modulation is proposed for the current-fed series resonant converter. In the proposed method, the circulating current is adjusted to trace the critical circulating current for ZVS, and the excessive loss caused by the redundant circulating current can be suppressed. Finally, a 1-kW prototype is built to verify the effectiveness of the proposed modulation, and a maximal efficiency increase of 15.1% at light load is achieved.

AB - In this letter, the redundant circulating current is identified as the key factor leading to the degradation of the efficiency of current-fed series resonant converters at light loads, which limits their performance in fuel cell vehicles. To tackle this issue, a zero-voltage switching (ZVS) critical current tracing modulation is proposed for the current-fed series resonant converter. In the proposed method, the circulating current is adjusted to trace the critical circulating current for ZVS, and the excessive loss caused by the redundant circulating current can be suppressed. Finally, a 1-kW prototype is built to verify the effectiveness of the proposed modulation, and a maximal efficiency increase of 15.1% at light load is achieved.

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A ZVS Critical Current Tracing Modulation for Current-Fed Series Resonant Converters in Fuel Cell Vehicles

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