In this letter, 8-bit paper based printable chipless tag is presented. The tag not only justifies the green electronic concept but also it is examined for sensing functionality. The compact tag structure comprises of seven L-shaped and one I-shaped dipole structure. These conducting tracks/dipole structures are of silver nano-particle based ink having a conductivity of 1.1 × 107 S/m. Each conducting track yields one bit corresponding to one peak. The tag design is optimized and analyzed for three different flexible substrates i.e. paper, Kapton® HN, and PET. The tag has ability to identify 28 = 256 objects, by using different binary combinations. The variation in length of particular conducting strip results in a shift of peak for that specific conducting track. This shift corresponds to logic state-1. The response of the tag for paper, Kapton® HN, and PET substrates is observed in the frequency band of 2.2–6.1 GHz, 2.4–6.3 GHz, and 2.5–6.5 GHz, respectively. The tag has an attractive nature because of its easy printability and usage of low-cost, flexible substrates. The tag can be deployed in various low-cost sensing applications.
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机译:在这封信中,介绍了基于8位纸的可打印无芯片标签。该标签不仅证明了绿色电子概念的合理性,还检查了其感应功能。紧凑的标签结构包括七个L形和一个I形偶极结构。这些导电轨迹/偶极结构是具有1.1×107 S / m的电导率的银纳米粒子基油墨。每个导电轨道产生对应于一个峰值的一位。标签设计针对三种不同的柔性基材即纸,Kapton®HN和PET进行了优化和分析。该标签可通过使用不同的二进制组合来识别28 = 256个对象。特定导电带的长度变化导致该特定导电轨道的峰移动。该移位对应于逻辑状态1。分别在2.2–6.1 GHz,2.4–6.3 GHz和2.5–6.5 GHz的频段上观察到标签纸对Kapton®HN和PET基材的响应。标签具有吸引人的性质,因为其易于印刷和使用低成本,柔性基板。该标签可以部署在各种低成本的传感应用中。
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