超高频 RFID 腕带:长距离、耐用、灵活、低成本的标签天线设计

IF 2.3 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE journal of radio frequency identification Pub Date : 2024-02-14 DOI:10.1109/JRFID.2024.3365796
Sergio López-Soriano;Joan Melià-Seguí;Josep Parrón Granados
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引用次数: 0

摘要

这篇论文的重点是对用于超高频(UHF)射频识别(RFID)腕带标签的长距离贴片型天线进行性能评估。该天线设计已在 2023 年 9 月 4-6 日于葡萄牙阿威罗举行的电气和电子工程师学会 RFID 技术与应用国际会议(RFID-TA)上展示,会议主题为 "用于超高频 RFID 可穿戴应用的耐用、灵活、低成本标签天线设计"。首先,在四个不同场景中对腕带标签天线进行了理论和实践评估。然后,将所研究的解决方案与当前的部分商业解决方案进行比较。拟议的天线设计安装在柔性、低成本的聚四氟乙烯(PTFE)基板上,由断开的金属-基板-金属分层结构组成。为了生产出轻便舒适的可穿戴设备,腕带设计的限制条件是厚度不超过 1 毫米,宽度不超过 3 厘米。该设计旨在用于人体识别和跟踪应用,同时提供足够的耐用性,使其能够长期使用而无需对天线进行重大调整。拟议的腕带可在 FCC 波段(902-928 MHz)内工作,根据微芯片灵敏度的不同,可达到 3-5 米以上的距离。实验结果表明,拟议腕带设计的性能与当前的商业解决方案相当,但提供了一系列不同的功能。文中讨论了当前解决方案与拟议腕带天线之间的比较。
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UHF RFID Wristbands: A Long-Range, Durable, Flexible, and Low-Cost Tag Antenna Design
This contribution is focused on the performance evaluation of a long-range patch-type antenna for ultra-high frequency (UHF) radiofrequency identification (RFID) wristband tags. The antenna design was presented in the IEEE International Conference on RFID Technology and Applications (RFID-TA), held on September 4-6, 2023, Aveiro, Portugal, under the title “A durable and flexible, low-cost tag antenna design for UHF RFID wearable applications”. First, the theoretical and practical evaluation of the wristband tag antenna is conducted in four different scenarios. Next, the studied solution is benchmarked against a selection of the current commercial solutions. The proposed antenna design is mounted on a flexible and low-cost Teflon (PTFE) substrate, and it consists of a disconnected metal-substrate-metal layered structure. To produce a light and comfortable wearable device, the wristband design constraints limit the thickness to 1 mm and the width to 3 cm. The design is intended to be used in human identification and tracking applications while providing enough durability to endure for a prolonged period without significant antenna de-tuning. The proposed wristband is designed to operate in the FCC band (902-928 MHz) and it can reach distances over 3–5 meters, depending on the microchip sensitivity. The results of the experiments show that the performance of the proposed wristband design is comparable to current commercial solutions, while offering a different set of features. A discussion on the comparison between the current solutions and the proposed wristband antenna is provided in the text.
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