Volume 95, №5
SMALL-SIZE PLANAR WWAN/LTE RANGE LOOP ANTENNA MANUFACTURED USING A NEW COMPOSITE MATERIAL FOR 5G-TECHNOLOGY APPLICATIONS
Consideration has been given to the possibility of ensuring a high level of broadband signal power in the tracts of a wireless device between the sending–receiving module and the antenna fabricated using various materials up to sounding in the most frequently used ranges, viz., 3G, 4G, and 5G. It is suggested that the required level of power transfer be achieved using composite materials with controlled microwave properties (dielectric and magnetic permeabilities) whose variations change the wave resistance and geometric dimensions of the microstrip line, which expands the opportunities for ensuring the required electromagnetic characteristics of a mobile device. In the course of investigation, an estimate was made of the possibility of using a mobile antenna fabricated using a composite material on the basis of fl uorinated ethylene–propylene in combination with strontium hexaferrite SrFe12O19 for advanced fi fth-generation systems without excluding the possibility of the antenna′s operation in systems of the second, third, and fourth generations. Advantages of using composite materials in implementing antenna devices in 5G technologies are shown.
Author: A. A. Sut′ko, T. I. Zubar′, D. I. Tishkevichb
Keywords: hexaferrite, planar loop antenna, dielectric substratum, composite material, power transfer coeffi cient.
Page: 1340
A. A. Sut′ko, T. I. Zubar′, D. I. Tishkevichb.
SMALL-SIZE PLANAR WWAN/LTE RANGE LOOP ANTENNA MANUFACTURED USING A NEW COMPOSITE MATERIAL FOR 5G-TECHNOLOGY APPLICATIONS //Journal of engineering physics and thermophysics.
. Volume 95, №5. P. 1340 .
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