Elena N. Baikova scite author profile

Abstract. The paper presents experimental results of measurement and analysis of the electromagnetic fields generated by wireless power transfer system and their possible interaction on data transmission channel. The energy transfer efficiency depends strongly both on the operation of the power transmitter and the operation of the receiver as well. Currently, in the Faculty of Science and Technology of the University Nova high power wireless power transfer systems are being constructed. For the coordination and optimization of the transmitter and receiver of the power transfer system, a set of microcontrollers is in development. The microcontrollers' mutual communication is of extreme importance especially when high intensity fields will induce highly undesired influence. The two (or more) controllers take the responsibility of the control in the transmitting and the receiving sides, correspondingly. The controllers are supposed to communicate with each other through a RF data channel. The WPT system with the induced electromagnetic interference voltages and currents may influence or completely disrupt the communication which will be a severe problem.

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Study of the Electromagnetic Interference Generated by Wireless Power Transfer Systems

Baikova

Valtchev

Melício

et al. 2016

IREE

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Study on electromagnetic emissions from wireless energy transfer

Baikova

Valtchev

Melício

et al. 2016

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Frequency Tuning of the Resonant Wireless Energy Transfer System

Baikova

Baikov²,

Valtchev

et al. 2019

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Electromagnetic Interference Impact of Wireless Power Transfer System on Data Wireless Channel

Baikova

Valtchev

Melício

et al. 2016

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Abstract. This paper focuses on measurement and analysis of the electromagnetic fields generated by wireless power transfer system and their possible interaction on data transmission channel. To measure the levels of electromagnetic fields and spectrum near the wireless power transfer equipment the measurement system in the frequency range 100 kHz to 3 GHz was used. Due to the advances in technology it becomes feasible to apply the wireless power transfer in the electric vehicles charging. Currently, in the Faculty of Science and Technology of the University Nova high power wireless power transfer systems are in development. Those systems need to be controlled by several microcontrollers in order to optimize the energy transmission. Their mutual communication is of extreme importance especially when high intensity fields will generate highly undesired influence. The controllers are supposed to communicate with each other through radio frequency data channels. The wireless power transfer system with the electromagnetic interference may influence or completely disrupt the communication which will be a severe problem.

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Wireless power transfer impact on data channel

Baikova

Valtchev

Melício

et al. 2016

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Abstract-This paper presents measurement results and analysis of the interference produced by the high-power electromagnetic field in a wireless energy transfer system. Through this analysis it is expected to be possible to evaluate the influence of the strong electromagnetic field on the data transmission channel. The wireless power transfer aimed at electric vehicles battery charging receives a great deal of attention in the recent years. However, the performance of those systems depends on the exchange of information between the transmitter and the receiver, e.g. vehicle identification, frequency, required power, payment information. Thus, it is essential to ensure that the electromagnetic interference, generated by the wireless power transfer system will not influence or disrupt the communication between the transmitter and the receiver. Keywords-Wirelesspower and data transmission; electromagnetic field; electromagnetic interference; impact on data channel

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Electromagnetic field generated by a wireless energy transfer system: comparison of simulation to measurement

Baikova

Romba

Valtchev

et al. 2017

Journal of Electromagnetic Waves and Applications

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This paper presents a wireless energy transfer system operating at the frequency values of kHz order: modeling, simulation, and comparison with prototype measurement results. Wireless energy transfer system model using finite element method was carried out to simulate the electric field and the magnetic flux density for different air gap sizes between the transmitter and the receiver coils. Results are presented and compared with the electromagnetic emission measurements radiated by the wireless energy transfer system prototype. The electric field comparison between the simulated and the prototype measurement values shows an error of roughly 8.7%. In the recent years, the interest in the wireless energy transfer technology, especially for electric vehicles batteries charging, is rapidly increasing. As a result of the increasing application of this technology in the industrial and consumer electronic products, more concerns are raised about the electromagnetic compatibility, since the wireless energy transfer systems produce electromagnetic emissions in the surrounding environment.

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Wireless Battery Charger for EV with Circular or Planar Coils: Comparison

Romba

Baikova

Borges

et al. 2018

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This paper presents the experimental results obtained in the wireless energy transfer (WET) system prototype based on coils: circular or planar. With these experimental results we can choose the tuning settings to improve the efficiency of power transmission of the WET systems. In WET for electric vehicle batteries charging, the coil shape and the range between the coils are the most important issues of those systems.

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Elena N. Baikova

Electromagnetic Interference from a Wireless Power Transfer System: Experimental Results

Study of the Electromagnetic Interference Generated by Wireless Power Transfer Systems

Study on electromagnetic emissions from wireless energy transfer

Frequency Tuning of the Resonant Wireless Energy Transfer System

Electromagnetic Interference Impact of Wireless Power Transfer System on Data Wireless Channel

Wireless power transfer impact on data channel

Electromagnetic field generated by a wireless energy transfer system: comparison of simulation to measurement

Wireless Battery Charger for EV with Circular or Planar Coils: Comparison

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