Yazar "Aydin, Emrullah" seçeneğine göre listele

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  • Küçük Resim
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    Design and Implementation of a 1-kW Wireless Power Transfer System for EV Charging
    (Ieee, 2019) Kosesoy, Yusuf; Aydin, Emrullah; Yildiriz, Emin; Aydemir, M. Timur
    Electric vehicles are seen as an alternative option in response to the depletion of resources. In order to increase the use of EVs in daily life, practical and reliable methods to charge batteries of EVs are quite important, accordingly wireless power transfer (WPT) is considered as a solution to charge batteries. In this study, a system which has 1 kW power rating and 20 kHz operation frequency is designed and implemented. Finite Element Analysis (FEA) simulation that verifies the coil design and inductance calculation has been carried out by using ANSYS Maxwell software. Waveforms of power parameters are obtained. Power loss at each stage and the efficiency of overall system are determined and interpreted.
  • Küçük Resim
    Öğe
    A new semi-analytical approach for self and mutual inductance calculation of hexagonal spiral coil used in wireless power transfer systems
    (Springer, 2021) Aydin, Emrullah; Yildiriz, Emin; Aydemir, M. Timur
    Several methods have been proposed in the literature for the calculation of self and mutual inductance. These methods include the use of complex integral analysis, the necessity of having primary and secondary coils with the same dimensions and the limitations of the ratio of the coil dimension to the distance between the coils. To overcome these restrictions, a new semi-analytical estimation method has been proposed in this paper. Calculation the self and mutual inductance by using the same basic formula which is based on Biot Savart Law prevents the formation of complex integrals and helps create a simple solution method. In order to verify the results obtained with the analytical approach, two hexagonal coils with 10 and 20 cm outer side lengths were produced by using litz wire with a conductive cross section of 1.78 mm(2). The results obtained with the new approach are compared with the finite element analysis, other work presented in the literature and experimental results in order to prove the accuracy of the proposed method.