Enhanced Robust Control of a DC-DC Converter for Fuel Cell Application Based on High-Order Extended State Observer

Shengrong Zhuo; Arnaud Gaillard; Liangcai Xu; Hao Bai; Damien Paire; Fei Gao

doi:10.1109/TTE.2020.2974582

Enhanced Robust Control of a DC-DC Converter for Fuel Cell Application Based on High-Order Extended State Observer

Shengrong Zhuo, Arnaud Gaillard, Liangcai Xu, Hao Bai, Damien Paire, Fei Gao

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

36 Scopus citations

Abstract

In this article, to better deal with the unknown time-varying disturbance, an enhanced robust controller based on high-order extended state observer (ESO) is proposed for a dc-dc floating interleaved boost converter in fuel cell application. Within the proposed controller, the disturbance is estimated in real time using high-order ESO and then canceled in the control law. Theoretical analysis is carried out to evaluate the controller performance of different order ESO. It is shown that compared with that of the conventional ESO-based controller, the antidisturbance ability of the proposed controller with high-order ESO is enhanced significantly. The proposed controller does not require extra sensors. The effectiveness of the proposed controller is demonstrated by both simulation and experimental results.

Original language	English
Article number	9000879
Pages (from-to)	278-287
Number of pages	10
Journal	IEEE Transactions on Transportation Electrification
Volume	6
Issue number	1
DOIs	https://doi.org/10.1109/TTE.2020.2974582
State	Published - Mar 2020
Externally published	Yes

Keywords

DC-DC converter
extended state observer (ESO)
floating interleaved boost converter (FIBC)
fuel cell (FC) application
robust control

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10.1109/TTE.2020.2974582

Cite this

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title = "Enhanced Robust Control of a DC-DC Converter for Fuel Cell Application Based on High-Order Extended State Observer",

abstract = "In this article, to better deal with the unknown time-varying disturbance, an enhanced robust controller based on high-order extended state observer (ESO) is proposed for a dc-dc floating interleaved boost converter in fuel cell application. Within the proposed controller, the disturbance is estimated in real time using high-order ESO and then canceled in the control law. Theoretical analysis is carried out to evaluate the controller performance of different order ESO. It is shown that compared with that of the conventional ESO-based controller, the antidisturbance ability of the proposed controller with high-order ESO is enhanced significantly. The proposed controller does not require extra sensors. The effectiveness of the proposed controller is demonstrated by both simulation and experimental results.",

keywords = "DC-DC converter, extended state observer (ESO), floating interleaved boost converter (FIBC), fuel cell (FC) application, robust control",

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AU - Gaillard, Arnaud

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AU - Paire, Damien

AU - Gao, Fei

PY - 2020/3

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N2 - In this article, to better deal with the unknown time-varying disturbance, an enhanced robust controller based on high-order extended state observer (ESO) is proposed for a dc-dc floating interleaved boost converter in fuel cell application. Within the proposed controller, the disturbance is estimated in real time using high-order ESO and then canceled in the control law. Theoretical analysis is carried out to evaluate the controller performance of different order ESO. It is shown that compared with that of the conventional ESO-based controller, the antidisturbance ability of the proposed controller with high-order ESO is enhanced significantly. The proposed controller does not require extra sensors. The effectiveness of the proposed controller is demonstrated by both simulation and experimental results.

AB - In this article, to better deal with the unknown time-varying disturbance, an enhanced robust controller based on high-order extended state observer (ESO) is proposed for a dc-dc floating interleaved boost converter in fuel cell application. Within the proposed controller, the disturbance is estimated in real time using high-order ESO and then canceled in the control law. Theoretical analysis is carried out to evaluate the controller performance of different order ESO. It is shown that compared with that of the conventional ESO-based controller, the antidisturbance ability of the proposed controller with high-order ESO is enhanced significantly. The proposed controller does not require extra sensors. The effectiveness of the proposed controller is demonstrated by both simulation and experimental results.

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Enhanced Robust Control of a DC-DC Converter for Fuel Cell Application Based on High-Order Extended State Observer

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Keywords

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