An Adaptive Sliding Mode Control Algorithm for Boost DC-DC Converter of FCHEVs
Pages 212 - 216
Abstract
In this paper, an adaptive sliding mode control (ASMC) strategy is developed for boost DC-DC converter with uncertainty of measurement, load and battery resistance. The error of load and battery resistance caused by the change of load and battery resistance is estimated by using the adaptive rule. Considering the uncertainty and disturbance of load and measurement of sensor, an adaptive sliding mode nonlinear surface is proposed to ensure the transient response and robustness of the system. Simulation results show that, compared with PID method, the output voltage trajectory can track the reference voltage, and the output voltage response is good.
References
[1]
Hemi H, Ghouili J, Cheriti A. 2014. A real time fuzzy logic power management strategy for a fuel cell vehicle. Energy Conversion and Management. 80, (Apr. 2014), 63--70.
[2]
Cao J, Emadi A. 2012. A new battery/ultracapacitor hybrid energy storage system for electric, hybrid, and plug-in hybrid electric vehicles. IEEE Transactions on Power Electronics. 27, 1 (Vol. 2012), 122--132.
[3]
Kasimalla VK, Srinivasulu GN. and Velisala V. 2018. A review on energy allocation of fuel cell/battery/ultracapacitor for hybrid electric vehicles. International Journal of Energy Research. 42, 14 (Nov. 2018), 4263--4283.
[4]
Ghasemian A, Taheri A. 2018. Constrained near time-optimal sliding mode control of boost converters based on switched affine model analysis. IEEE Transactions on Industrial Electronics. 65 (Jan. 2018), 887--4897.
[5]
Pahlevaninezhad M, Drobnik J, Jain PK, et al. 2011. A load adaptive control approach for a zero-voltage-switching DC-DC converter used for electric vehicles. IEEE Transactions on Industrial Electronics. 59, 2 (Feb. 2011), 920--933.
[6]
Wai RJ, Shih, LC. 2012. Adaptive fuzzy-neural-network design for voltage tracking control of a DC-DC boost converter. IEEE Transactions on Power Electronics. 27, 4 (Apr. 2012), 2104--2115.
[7]
Zhang CL, Wang JX, Li SH, et al. 2015. Robust control for PWM-based DC-DC buck power converters with uncertainty via sampled-data output feedback. IEEE Transactions on Power Electronics. 30, 1 (Jan. 2015), 504--515.
[8]
Delavari H, Ghaderi R, Ranjbar A, et al. 2010. Fuzzy fractional order sliding mode controller for nonlinear systems. Communications in Nonlinear Science and Numerical Simulation. 15, 4 (Apr. 2010), 963--978.
[9]
Ramos R, Biel D, Fossas E, et al. 2013. Sliding mode controlled multiphase buck converter with interleaving and current equalization. Control Engineering Practice. 21, 5 (May. 2013), 737--746.
[10]
Li HW, Wang JH, Lam HK, et al. 2016. Adaptive sliding mode control for interval type-2 fuzzy systems. IEEE Transactions on Systems Man Cyberntics-Systems. 46, 12 (Dec. 2016), 1654--1663.
[11]
Tan SC, Lai YM, Tse CK. 2012. Sliding mode control of switching power converters: techniques and implementation. IEEE Industrial Electronics Magazine. 38, 2--3 (Sep. 2012), 203--213.
[12]
Wang JL, Xu D, Zhou H, et al. 2017. High-performance fractional order terminal sliding mode control strategy for DC-DC Buck converter. Plos One. 12, 10 (Oct. 2017), e0187152.
[13]
Li S, Yang J, Wu B, et al. 2016. Finite-time disturbance observer based nonsingular terminal sliding mode control for PWM-based DC-DC buck converters with mismatched load disturbances. IET Power Electronics. 9, 9 (Apr. 2016), 1995--2002.
[14]
Komurcugil, H. 2012. Adaptive terminal sliding-mode control strategy for DC-DC buck converters. ISA Transactions. 51, 6 (Nov. 2012), 673--681.
[15]
Velasco FEH, Garcia NT, Gomez YAG. 2015. Adaptive Control for Buck Power Converter Using Fixed Point Inducting Control and Zero Average Dynamics Strategies. International Journal of Bifurcation and Chaos. 25, 4 (Apr. 2015).
Index Terms
- An Adaptive Sliding Mode Control Algorithm for Boost DC-DC Converter of FCHEVs
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Published In
December 2019
263 pages
ISBN:9781450377027
DOI:10.1145/3375998
Copyright © 2019 ACM.
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Published: 28 January 2020
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ICNCC 2019
ICNCC 2019: 2019 The 8th International Conference on Networks, Communication and Computing
December 13 - 15, 2019
Luoyang, China
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