Current-Fed Hybrid Dual Active Bridge DC-DC Converter for a Fuel Cell Power Conditioning System With Reduced Input Current Ripple

Deshang Sha; Yaxiong Xu; Jiankun Zhang; Yu Yan

doi:10.1109/TIE.2017.2698376

Current-Fed Hybrid Dual Active Bridge DC-DC Converter for a Fuel Cell Power Conditioning System With Reduced Input Current Ripple

Deshang Sha^*, Yaxiong Xu, Jiankun Zhang, Yu Yan

^*Corresponding author for this work

Beijing Institute of Technology

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

72 Citations (Scopus)

Abstract

In this paper, a novel current fed hybrid dual active bridge dc-dc converter is proposed, which is suitable for a low-voltage fuel cell power conditioning system. The high-frequency input current ripple can be reduced to minimum because the input side switches are always switched at 50% duty cycles in spite of the fuel cell voltage and the load variation. Notch filter is used in the voltage feedback path to reduce the low-frequency input current ripple when interfaced with a single-phase inverter load. All of the power devices can achieve zero voltage switching by the proposed control strategy. The mode analysis, the operation principle, zero-voltage switching (ZVS) conditions, and parameter design are given in this paper. A 1 kW prototype has been fabricated to verify the effectiveness of the proposed converter and control strategy.

Original language	English
Article number	7912334
Pages (from-to)	6628-6638
Number of pages	11
Journal	IEEE Transactions on Industrial Electronics
Volume	64
Issue number	8
DOIs	https://doi.org/10.1109/TIE.2017.2698376
Publication status	Published - Aug 2017

Keywords

Current ripple
DC-DC converter
fuel cell
zero-voltage switching (ZVS)

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10.1109/TIE.2017.2698376

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title = "Current-Fed Hybrid Dual Active Bridge DC-DC Converter for a Fuel Cell Power Conditioning System With Reduced Input Current Ripple",

abstract = "In this paper, a novel current fed hybrid dual active bridge dc-dc converter is proposed, which is suitable for a low-voltage fuel cell power conditioning system. The high-frequency input current ripple can be reduced to minimum because the input side switches are always switched at 50% duty cycles in spite of the fuel cell voltage and the load variation. Notch filter is used in the voltage feedback path to reduce the low-frequency input current ripple when interfaced with a single-phase inverter load. All of the power devices can achieve zero voltage switching by the proposed control strategy. The mode analysis, the operation principle, zero-voltage switching (ZVS) conditions, and parameter design are given in this paper. A 1 kW prototype has been fabricated to verify the effectiveness of the proposed converter and control strategy.",

keywords = "Current ripple, DC-DC converter, fuel cell, zero-voltage switching (ZVS)",

author = "Deshang Sha and Yaxiong Xu and Jiankun Zhang and Yu Yan",

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AU - Yan, Yu

PY - 2017/8

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AB - In this paper, a novel current fed hybrid dual active bridge dc-dc converter is proposed, which is suitable for a low-voltage fuel cell power conditioning system. The high-frequency input current ripple can be reduced to minimum because the input side switches are always switched at 50% duty cycles in spite of the fuel cell voltage and the load variation. Notch filter is used in the voltage feedback path to reduce the low-frequency input current ripple when interfaced with a single-phase inverter load. All of the power devices can achieve zero voltage switching by the proposed control strategy. The mode analysis, the operation principle, zero-voltage switching (ZVS) conditions, and parameter design are given in this paper. A 1 kW prototype has been fabricated to verify the effectiveness of the proposed converter and control strategy.

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Current-Fed Hybrid Dual Active Bridge DC-DC Converter for a Fuel Cell Power Conditioning System With Reduced Input Current Ripple

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