宽带超高频RFID标签天线几何建模及厚度优化

2015 International Conference on Advanced Technologies for Communications (ATC) Pub Date : 2015-10-01 DOI:10.1109/ATC.2015.7388385

S. Nguyen, N. N. Le, Phat Tan Lam, E. Fribourg-Blanc, C. M. Dang, S. Tedjini

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引用次数: 2

摘要

本文提出了一种新型的宽带超高频射频识别(RFID)无源标签设计。优化后的设计尺寸紧凑，覆盖了全球UHF RFID (860MHz-960MHz)的所有带宽。为了在实际应用中灵活定制，本工作还提出了天线几何的等效模型。在两个不同的模拟器(ADS和CST Microwave Studio)上对天线几何形状的三维EM仿真结果与集总单元等效模型的一致性证明了该设计在实际应用中的可行性。此外，我们还进行了天线厚度的优化，以降低商业标签的价格。实验结果表明，仿真与测量结果吻合良好，证明了等效模型的可行性和制造过程的可重复性。优化后的设计在全球UHF RFID的所有带宽下都具有可接受的读取范围(大于8m)，优化后的天线厚度应在5 ~ 6 μm之间，以保持制造的RFID标签的良好性能。

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Modeling of antenna geometry and thickness optimization for wideband UHF RFID tag

In this paper, we present a novel design for wideband Ultra High Frequency (UHF) Radio Frequency Identification (RFID) passive tag. The optimized design has compact size and covers all the bandwidth for global UHF RFID (860MHz-960MHz). For flexible customization in real-world applications, an equivalent model of antenna geometry is also proposed in this work. The agreement between equivalent model with lumped elements and 3D EM simulation of antenna geometry in 2 different simulator (ADS and CST Microwave Studio) proves the feasibility of design in practical applications. Furthermore, we executed also the optimization of antenna thickness in order to reduce the price of commercial tags. From experimental results, the good agreement between simulation and measurement proves the feasibility of equivalent model and the repeatability of fabrication process. The optimized design has the acceptable read-range (over 8m) in all the bandwidth of global UHF RFID and optimized thickness for antenna should be between 5-μm and 6-μm to keep the good performance of fabricated RFID tags.

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2015 International Conference on Advanced Technologies for Communications (ATC)

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