In this research paper, an advanced Wireless Power Transfer (WPT) system has been developed which is capable of charging electric vehicles (EVs) without any wire. This system uses modern techniques like inductive and resonant coupling which makes the power transfer more efficient. The battery charging process has been analyzed through simulation in which detailed observation of voltage and current waveform from transmitter side to receiver side has been made. An efficient and compact wireless charging circuit has been built by using dedicated ICs like XKT510 and T3168. The integration of Arduino microcontroller, IR sensor, LCD display, and TP4056 charging module makes the system smart and real-time responsive. For practical implementation, a model was created and tested which used embedded copper coils and miniature EV. This system can also be operated using renewable sources like solar power, making it an environment-friendly solution. This model provides efficient charging, in which the battery can be charged in a secure and controlled way with minimum energy loss. In the future, it can be used on public charging roads or highways which will increase both EV adoption and convenience.

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Development of Power Transfer System in Wireless Mode

  • P. Chandra Sekhar,
  • Ch. Raja,
  • Bhaskar Roy,
  • Subrata Chowdhury,
  • Tran Duc Tan

摘要

In this research paper, an advanced Wireless Power Transfer (WPT) system has been developed which is capable of charging electric vehicles (EVs) without any wire. This system uses modern techniques like inductive and resonant coupling which makes the power transfer more efficient. The battery charging process has been analyzed through simulation in which detailed observation of voltage and current waveform from transmitter side to receiver side has been made. An efficient and compact wireless charging circuit has been built by using dedicated ICs like XKT510 and T3168. The integration of Arduino microcontroller, IR sensor, LCD display, and TP4056 charging module makes the system smart and real-time responsive. For practical implementation, a model was created and tested which used embedded copper coils and miniature EV. This system can also be operated using renewable sources like solar power, making it an environment-friendly solution. This model provides efficient charging, in which the battery can be charged in a secure and controlled way with minimum energy loss. In the future, it can be used on public charging roads or highways which will increase both EV adoption and convenience.