• Title/Summary/Keyword: 자기 임피던스

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Magneto-impedance and Magnetic Relaxation in Electrodeposited Cu/Ni80Fe20 Core/Shell Composite Wire (전기도금 된 Cu/Ni80Fe20 코어/쉘 복합 와이어에서 자기임피던스 및 자기완화)

  • Yoon, Seok Soo;Cho, Seong Eon;Kim, Dong Young
    • Journal of the Korean Magnetics Society
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    • v.25 no.1
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    • pp.10-15
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    • 2015
  • The model for the magneto-impedance of composite wires composed of highly conductive nonmagnetic metal core and soft magnetic shell was derived based on the Maxwell's equations. The Cu($100{\mu}m$ diameter)/$Ni_{80}Fe_{20}$($15{\mu}m$ thickness) core/shell composite wire was fabricated by electrodeposition. The impedance spectra for the $Cu/Ni_{80}Fe_{20}$ core/shell composite wire were measured in the frequency range of 10 kHz~10 MHz under longitudinal dc magnetic field in 0 Oe~200 Oe. The spectra of complex permeability in circumferential direction were extracted from the impedance spectra by using the derived model. The extracted spectra of complex permeability showed relaxation-type dispersion which is well curve-fitted with Debye equation with single relaxation frequency. By analyzing the magnetic field dependence of the complex permeability spectra, it has been verified that the composite wire has magnetic anisotropy in longitudinal direction and the origin of the single relaxation process is the magnetization rotation in circumferential direction.

2.5 Dimensional EM Modeling considering Horizontal Magnetic Dipole Source (수평 자기쌍극자 송신원을 이용한 2.5차원 전자탐사 모델링)

  • Kwon Hyoung-Seok;Song Yoonho;Son Jeong-Sul;Suh Jung-Hee
    • Geophysics and Geophysical Exploration
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    • v.5 no.2
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    • pp.84-92
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    • 2002
  • In this study, the new modeling scheme has been developed for recently designed and tested electromagnetic survey, which adapts horizontal magnetic dipole with $1\;kHz\~1\;MHz$ frequency range as a source. The 2.5-D secondary field formulation in wavenumber domain was constructed using finite element method and verified through comparing results with layered-earth solutions calculated by integral equations. 2-D conductive- and resistive-block models were constructed for calculating electric field, magnetic field and impedance - the ratio of electric and magnetic fields which are orthogonal each other. This study showed that electric field and impedance are superior in identifying 2-D isolated-body model to magnetic field. In particular, impedance gives more stable results than electric field with similar spatial resolving power, because electric field is divided by magnetic field in impedance. Thus the impedance analysis which uses electric and magnetic fields together would give better result in imaging the shallow anomalies than conventional EM method.

The Study on optimal transfer regarding Wireless power transmission using a variable impedance matcher (가변 임피던스 정합기를 이용한 전자기유도방식의 무선전력전송에서의 최적전송에 대한 연구)

  • Kim, Dae-Wook;Lim, Eun-Suk;Choi, Sang-Don;Lee, Jong-Sik;Choi, Dae-Kyu;Chung, Yoon-Do
    • Proceedings of the KIPE Conference
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    • 2013.07a
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    • pp.508-509
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    • 2013
  • 본 논문에서는 400kHz 10kW RF Source와 최대전력전달을 하기 위해 가변임피던스 정합기를 이용하여 파워 소스를 준비하였고, 송수신코일은 EE71형태의 페라이트코어에 테프론 와이어를 결선하여 구성하였다. 본 연구에서는 MF대역의 주파수를 이용하므로 자기유도방식을 채택하였다. 무선전력전송에서는 최대로 전력이 전달하기 위하여 송수신 코일과 부하간에 임피던스 매칭이 필수적으로 필요하다. 매칭이 원할하지 않을 경우 RF Source에 반사전력이 반사되어 심각한 손상을 발생할 수 있으며, 수신부 코일의 부하단에 최대로 전력이 전달되지 않을 뿐만 아니라 전체 시스템 효율이 나빠지게 된다 본 연구에서는 임피던스 정합기를 이용하여 자기유도방식에서 최적의 송수신 전송 조건을 도출하였다.

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