Affiliation:
1. Kazan State Power Engineering University
Abstract
The speed of implementation of electric vehicles depends on the level of development of the charging infrastructure, which is subject to ever new requirements, including increasing ease of use and reducing charging time. A solution to the problem could be an introduction of wireless charging of electric vehicles (inductive charging device – WPT). However, in order to produce an effective WPT (without preliminary calculation and modeling the efficiency of the device may not reach 10 %), it is necessary to select the parameters of the coils and simulate the frequency characteristics of the voltage. For this purpose, as part of the implementation of the project to create a mobile charging installation for electric vehicles, the problem of modeling the operation of the WPT has been solved. In accordance with the technical specifications, a coil has been built in Excel, which was used as geometry in Comsol to evaluate the distribution of magnetic fields. To study the frequency characteristics, the CST Studio program has been used. Using these programs, we simulated various methods for implementing the WPT with obtaining frequency characteristics. It has been confirmed that the coupling coefficient increases with decreasing distance between parts of the WPT. Calculations of resonant circuits and the expected efficiency for both types of resonant circuits have been carried out, and it has been concluded that decreasing the distance leads to a decrease in the resonant frequency of the system of connected circuits. The developed model allows us to obtain the values of the circuit capacitances for the formation of resonance, move on to practical implementation and verify the resulting models.
Publisher
FSEI HPE Murmansk State Technical University
Reference21 articles.
1. Safin, A. R., Ivshin, I. V., Tsvetkov, A. N., Dolomanyuk, L. V. et al. 2021. The study of the design features of mobile installations for the charge of electric transport for the development of draft design documentation. Vestnik Kazanskogo gosudarstvennogo energeticheskogo universiteta, 13(3(51)), pp. 15-24. EDN: KMOTRQ. (In Russ.)
2. Safin, A. R., Kozyrev, A. B., Petrov, T. I., Nizamiev, M. F. et al. 2022. Determination of the parameters of the inductance coils of an induction charger for a non-contact method of charging electric vehicles. News of higher educational institutions. Energy problems, 24(5), pp. 74-83. DOI: https://doi.org/10.30724/1998-9903-2022-24-5-74-83. EDN: GPYWAY. (In Russ.)
3. Ahmad, A., Alam, M. S., Mohamed, A. A. S. 2019. Design and interoperability analysis of quadruple pad structure for electric vehicle wireless charging application. IEEE Transactions on Transportation Electrification, 5(4), pp. 934-945. DOI: https://doi.org/10.1109/tte.2019.2929443.
4. Bentalhik, I., Lassioui, A., EL Fadil, H., Bouanou, T. et al. 2022. Analysis, design and realization of a wireless power transfer charger for electric vehicles: Theoretical approach and experimental results. World Electric Vehicle Journal, 13(7). Article number: 121. DOI: https://doi.org/10.3390/wevj13070121.
5. Bouanou, T., El Fadil, H., Lassioui, A., Assaddiki, O. et al. 2021. Analysis of coil parameters and comparison of circular, rectangular, and hexagonal coils used in WPT system for electric vehicle charging. World Electric Vehicle Journal, 12(1). Article number: 45. DOI: https://doi.org/10.3390/wevj12010045.