Robust adaptive flatness based control for non-ideal boost converter in fuel cell electric vehicles

In this paper, an innovative robust dual loop control strategy for the non-ideal Boost converter subject to load resistance disturbances and input voltage variation is successfully developed and implemented. By converting the power losses of non-ideal Boost converter into serial and parallel resista...

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Published in	IEEE International Conference on Industrial Technology (Online) pp. 1707 - 1712
Main Authors	Li, Qian, Huangfu, Yigeng, Xu, Liangcai, Zhao, Dongdong, Gao, Fei
Format	Conference Proceeding
Language	English
Published	IEEE 01.02.2019
Subjects	dual loop control flatness based control Fuel cells Inductors Load modeling Non-ideal Boost converter Observers parameters estimation Resistance Voltage control Voltage measurement
Online Access	Get full text
ISSN	2643-2978
DOI	10.1109/ICIT.2019.8843698

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Abstract	In this paper, an innovative robust dual loop control strategy for the non-ideal Boost converter subject to load resistance disturbances and input voltage variation is successfully developed and implemented. By converting the power losses of non-ideal Boost converter into serial and parallel resistance, the equivalent circuit and its mathematical model are established. Then, for the outer voltage loop, a flatness based control incorporated with a parameters estimation technique used to estimate the unknown input voltage and output current is designed to assure tight reference voltage tracking under the extern disturbances. Meanwhile, a rigorous stability proof based on the Routh-Hurwitz criteria is given. Moreover, for the inner current loop, a simple PI controller is employed to achieving the reference current tracking. Finally, the validity and robustness of the proposed control scheme and parameters estimation accuracy are verified through numerical simulation.
AbstractList	In this paper, an innovative robust dual loop control strategy for the non-ideal Boost converter subject to load resistance disturbances and input voltage variation is successfully developed and implemented. By converting the power losses of non-ideal Boost converter into serial and parallel resistance, the equivalent circuit and its mathematical model are established. Then, for the outer voltage loop, a flatness based control incorporated with a parameters estimation technique used to estimate the unknown input voltage and output current is designed to assure tight reference voltage tracking under the extern disturbances. Meanwhile, a rigorous stability proof based on the Routh-Hurwitz criteria is given. Moreover, for the inner current loop, a simple PI controller is employed to achieving the reference current tracking. Finally, the validity and robustness of the proposed control scheme and parameters estimation accuracy are verified through numerical simulation.
Author	Li, Qian Xu, Liangcai Huangfu, Yigeng Gao, Fei Zhao, Dongdong
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Snippet	In this paper, an innovative robust dual loop control strategy for the non-ideal Boost converter subject to load resistance disturbances and input voltage...
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SubjectTerms	dual loop control flatness based control Fuel cells Inductors Load modeling Non-ideal Boost converter Observers parameters estimation Resistance Voltage control Voltage measurement
Title	Robust adaptive flatness based control for non-ideal boost converter in fuel cell electric vehicles
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