Broadband and High-Gain Antenna for Frequency-Coded Chipless RFID Handheld Readers

2020 International Workshop on Electromagnetics: Applications and Student Innovation Competition (iWEM) Pub Date : 2020-08-26 DOI:10.1109/iWEM49354.2020.9237395

Yi-Xin Lin, Yen‐Sheng Chen

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引用次数: 1

Abstract

A high-gain antenna covering 1.7-5.5 GHz based on a quasi-Yagi structure is proposed for frequency-coded chipless radiofrequency identification (RFID) handheld readers. To enhance the capacity of chipless RFID, a broadband spectrum is required. In addition, when chipless tags are arranged facing the reader, a high-gain reader antenna is desired such that detection reliability can be improved. To meet the two requirements simultaneously, we propose an antenna that uses the quasi-Yagi configuration with a broadened impedance bandwidth and large front-to-back ratio (FBR). The bandwidth improvement is achieved using a bow-tie shaped driven dipole. The enhancement of gain is obtained using optimized parameters for directors and a reflector. Simulated results indicate that the impedance bandwidth is 1.70-5.53 GHz. The broadside gain and FBR vary over the passband are 3.7-5.3 dBi and 4.8-16.8 dB, respectively. The performance of the antenna is suitable for the chipless RFID system that has a data capacity of 21 bits.

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用于频率编码无芯片RFID手持阅读器的宽带和高增益天线

提出了一种基于准八木结构的1.7 ~ 5.5 GHz高增益天线，用于频率编码无芯片射频识别(RFID)手持阅读器。为了提高无芯片RFID的容量，需要宽带频谱。此外，当无芯片标签朝向阅读器布置时，需要高增益阅读器天线，以提高检测可靠性。为了同时满足这两个要求，我们提出了一种采用准八木结构的天线，具有宽阻抗带宽和大前后比(FBR)。带宽的提高是通过使用领结形状的驱动偶极子实现的。利用优化后的定向器和反射器参数，实现了增益的增强。仿真结果表明，阻抗带宽为1.70 ~ 5.53 GHz。宽边增益和FBR在通带范围内的变化分别为3.7 ~ 5.3 dBi和4.8 ~ 16.8 dB。该天线的性能适用于数据容量为21位的无芯片RFID系统。

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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2020 International Workshop on Electromagnetics: Applications and Student Innovation Competition (iWEM)

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