A Low-Profile Top-Loaded Monopole Antenna for On-Metal RFID Tag Design

IF 2.3 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE journal of radio frequency identification Pub Date : 2024-04-26 DOI:10.1109/JRFID.2024.3393994
Jiun-Ian Tan;Yong-Hong Lee;Eng-Hock Lim;Fwee-Leong Bong;Boon-Kuan Chung
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Abstract

For the first time, a novel low-profile top-loaded monopole antenna is proposed for on-metal omnidirectional tag design. Here, a square patch is loaded on top of a short monopole antenna to improve its input impedance and radiation efficiency. Subsequently, the tag antenna is shunt-fed (using both the direct-feeding and proximity-coupled-feeding methods) to further enhance its input impedance and omnidirectionality. As a result, the antenna impedance, radiation resistance, and radiation efficiency have all been enhanced significantly, as compared with a typical short monopole antenna. A C-shaped feedline, which is to shunt-feed the tag antenna, is also introducing additional inductance to the antenna impedance for attaining good impedance matching level. Despite having a profile of not more than one hundredth of the operating wavelength, the proposed tag antenna is still able to exhibit a strong and stable omnidirectional radiation pattern when attached on a metal. The proposed tag antenna, which has a size of $0.1069 \lambda \times 0.1069 \lambda \times 0.0098~\lambda $ , can provide a constant read range of ~9.2 m in all azimuthal directions, with a minimal fluctuation of 0.5 m at 0.910 GHz. The tag’s resonance remains stable and independent of the size and shape of the backing conductive platform.
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用于金属表面 RFID 标签设计的扁平顶部单极天线
首次提出了一种用于金属全向标签设计的新型扁平顶部单极天线。在这里,一个方形贴片被加载到一个短单极天线的顶部,以改善其输入阻抗和辐射效率。随后,对标签天线进行并联馈电(采用直接馈电和近距离耦合馈电两种方法),以进一步提高其输入阻抗和全向性。因此,与典型的短单极天线相比,天线阻抗、辐射阻抗和辐射效率都得到了显著提高。C 形馈线用于对标签天线进行分流馈电,也为天线阻抗引入了额外的电感,以达到良好的阻抗匹配水平。尽管标签天线的轮廓不超过工作波长的百分之一,但当它贴在金属上时,仍能显示出强大而稳定的全向辐射模式。拟议的标签天线尺寸为 0.1069 \lambda \times 0.1069 \lambda \times 0.0098~\lambda $,可以在所有方位角方向提供约 9.2 米的恒定读取范围,在 0.910 GHz 频率下波动最小为 0.5 米。标签的共振保持稳定,与背衬导电平台的尺寸和形状无关。
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