A Low Computational Burden Model Predictive Control for Dynamic Wireless Charging

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Detail(s)

Original languageEnglish
Pages (from-to)10402-10413
Number of pages12
Journal / PublicationIEEE Transactions on Industrial Electronics
Volume71
Issue number9
Online published1 Jan 2024
Publication statusPublished - Sept 2024

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Abstract

Dynamic wireless charging (DWC) technology can help alleviate the problem of short driving range for battery-powered vehicles. In this article, a model predictive control (MPC) is applied to the buck converter on the secondary side of a DWC system to address fast output fluctuations. This approach features a fast-dynamic response, and no communication link is required. To solve the key issue of MPC, which is the computational burden, a polynomial fitting method based on the parsing solution of the sampled-data model is proposed. The complex matrix exponential calculation is replaced by simple polynomial operations, and the optimal duty cycle can be calculated directly by solving a quadratic function. This significantly reduces the computational burden. A DWC experimental setup is constructed, and results show that the proposed MPC has a better dynamic performance compared to proportional-integral control. The adjustment time is only 140 μs (around seven switching cycles) when the reference voltage is stepping. Moreover, the computational burden for matrix calculation in two-step prediction can be reduced by 50.6% and 79.7% compared to the lookup table and Taylor series approximation, respectively. Meanwhile, MPC with current limitation is analyzed and demonstrates a neat spectrum, small ripple but large response time.

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Research Area(s)

  • Dc–dc converters, dynamic wireless charging (DWC), model predictive control (MPC), sampled-data model, wireless power transfer (WPT)

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