Prototyping flexible UHF RFID tags through rapid and effective unconventional techniques: Validation on label-type sensor-tag

2012 IEEE International Conference on RFID-Technologies and Applications (RFID-TA) Pub Date : 2012-11-01 DOI:10.1109/RFID-TA.2012.6404506

L. Catarinucci, R. Colella, L. Tarricone

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引用次数: 7

Abstract

As a matter of fact, electromagnetic labs involved in label-type UHF RFID tags design, realize their tag prototypes making use of either very rudimentary methods, by shaping the tag antenna on a copper film through a handy cutter, or photolithography methods based on rigid PCB, which give out non-flexible devices. In this work two innovative prototyping techniques suitable for built-in-lab flexible tags are presented. The former method is mainly based on the use of a cutting plotter to precisely shape the tag antenna on adhesive copper tapes. The latter makes jointly use of flexible PCBs and solid ink printers. Once introduced and discussed, the new prototyping methods have been electromagnetically characterized and results have been compared with the canonical photolithography. At the end of the paper, the very challenging test-case of the practical realization of a flexible Sensor-Tag is presented. The measured and shown performance confirms the appropriateness of the proposed prototyping techniques even for complex RFID-based structures.

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通过快速有效的非常规技术制作柔性超高频RFID标签:标签型传感器标签的验证

事实上，参与标签型超高频RFID标签设计的电磁实验室，要么利用非常基本的方法，通过手持刀具在铜膜上塑造标签天线，要么利用基于刚性PCB的光刻方法来实现他们的标签原型，这种方法会产生非柔性器件。在这项工作中，提出了两种适用于实验室内置柔性标签的创新原型技术。前一种方法主要是基于使用切割绘图仪在粘接铜带上精确地塑造标签天线。后者联合使用柔性pcb和固体油墨打印机。在介绍和讨论后，对新的原型方法进行了电磁表征，并将结果与标准光刻法进行了比较。最后，给出了柔性传感器标签实际实现的极具挑战性的测试用例。测量和显示的性能证实了所提出的原型技术的适当性，即使是复杂的基于rfid的结构。

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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2012 IEEE International Conference on RFID-Technologies and Applications (RFID-TA)

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