The Transactions of The Korean Institute of Electrical Engineers (전기학회논문지)

The Korean Institute of Electrical Engineers (대한전기학회)
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Analysis of Shielding Characteristics for Induction Phenomenon Attenuation of Large Capacity Wireless Power Transmission Environment

대용량 무선전력전송 환경 유도현상 감쇄를 위한 차폐 특성 분석

  • Chae, Dong-Ju (Electrical Safety Research Institute, Korea Electrical Safety Corporation) ;
  • Kim, Young-Seok (Electrical Safety Research Institute, Korea Electrical Safety Corporation) ;
  • Jung, Jin-Soo (Electrical Safety Research Institute, Korea Electrical Safety Corporation) ;
  • Lim, Hyun-Sung (Electrical Safety Research Institute, Korea Electrical Safety Corporation) ;
  • Cho, Sung-Koo (Electrical Safety Research Institute, Korea Electrical Safety Corporation) ;
  • Hong, Seong-Jun (Electrical Safety Research Institute, Korea Electrical Safety Corporation)
  • Received : 2017.10.19
  • Accepted : 2017.11.13
  • Published : 2017.12.01
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Abstract

As the capacity of the wireless power transmission increases, a higher supply current which may induce current in nearby conductive parts requires. Induced current may affect electric shock to the human body and malfunction of the electrical equipment. In order to prevent such induced phenomena as a risk factor, shielding is required between the source of the wireless power transmission and the conductive parts. The resonance frequency for the large capacity wireless power transmission has the wavelength of several hundred meters, so most environments are included in the near-field area. By wave impedance, the electric field has higher density in the near-field area and needs to be analyze for protecting. For this purpose, it is necessary to select a substance having a larger electric conductivity and optimized shielding structure. In this paper, an aluminum base shielding structure was presented to conduct experiments on thickness, position, and heat dissipation. In the 35 kW, 60 kHz environments, the optimized 5T Al base shielding structure attenuates the induced current to 43 %.

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References

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