Towards 600 MHz LTE smartphones via tunable magnetodielectric Printed Inverted-F Antennas

2017 International Workshop on Antenna Technology: Small Antennas, Innovative Structures, and Applications (iWAT) Pub Date : 1900-01-01 DOI:10.1109/IWAT.2017.7915331

D. Rongas, C. Kakoyiannis, G. Fikioris

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引用次数: 1

Abstract

The use of magnetodielectric reconfigurable antennas on smartphones was investigated aiming to meet the requirements of the lower bands of current 4G standards and beyond. Since physical dimensions are constrained by the size of the mobile terminal, a reconfigurability mechanism based on partial magnetodielectric substrates and superstrates was studied in order to shift the resonance frequency lower while maintaining low system complexity. A printed inverted-F antenna (PIFA) was used to demonstrate continuous tuning, as opposed to the discrete tuning states of other methods, e.g., aperture tuning by means of switched capacitors. The numerical analysis of the PIFA started with lossy, isotropic ferrites, and then it elevated to gyromagnetic anisotropy. It was found that some of the benefits of tunable magnetodielectric loading are the ability to cover the 600–960 MHz band with just 3–5 sub-bands requiring realistic values of permeability, whereas an adequate radiation efficiency is maintained throughout the band.

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通过可调谐磁介质印刷反f天线实现600 MHz LTE智能手机

研究了在智能手机上使用磁介质可重构天线，旨在满足当前4G标准的较低频段及更高频段的要求。由于物理尺寸受移动终端尺寸的限制，研究了一种基于部分磁介质衬底和上覆层的可重构机制，以降低谐振频率，同时保持较低的系统复杂性。使用印刷反f天线(PIFA)来演示连续调谐，而不是其他方法的离散调谐状态，例如通过开关电容器进行孔径调谐。PIFA的数值分析从损耗、各向同性铁氧体开始，然后上升到陀螺磁各向异性。研究发现，可调谐磁介质负载的一些好处是能够覆盖600 - 960mhz频段，只需3-5个子频段就需要实际的磁导率值，而整个频段保持足够的辐射效率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2017 International Workshop on Antenna Technology: Small Antennas, Innovative Structures, and Applications (iWAT)

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