학술논문
Higher-Frequency Permeability Measurement by Harmonic Resonance Cavity Perturbation Method
Document Type
Periodical
Author
Source
IEEE Transactions on Magnetics IEEE Trans. Magn. Magnetics, IEEE Transactions on. 59(11):1-5 Nov, 2023
Subject
Language
ISSN
0018-9464
1941-0069
1941-0069
Abstract
A new combination of electric field antenna and coupling hole plates is introduced to extend the measurable frequency range of rectangular waveguide-type harmonic resonator to evaluate complex relative permeability of magnetic composites by perturbation method from 18 to 38 GHz ( $K$ -Ka-band). The noise suppression performance parameter $\omega \mu ^{\prime \prime }=2\pi f\mu _{0}\mu _{r}^{\prime \prime }$ ( $\text{k}\Omega $ /m) is useful to estimate the performance of magnetic powder composite sheets, especially beyond the 10 GHz range where relative permeability is as small as 0–2. The $\omega \mu ^{\prime \prime }$ exhibited a maximum of 166 $\text{k}\Omega $ /m at 27 GHz for a carbonyl iron powder (CIP) composite sheet, and as high as 510 at 38 GHz for a Sendust sheet. These values meet $\omega \mu ^{\prime \prime } \ge100 \text{k}\Omega $ /m criteria that some commercially available noise suppression sheets exhibit in their recommended frequency range. These performances match Sub-6 and 28 GHz bands used for 5G telecommunication equipment.