Design and Implementation of Harmonic RFID Based on Conventional UHF System

Aditya Purandare, Yihang Chu, Deepak Kumar, Saikat Mondal, A. Mason, P. Chahal
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引用次数: 1

Abstract

There has been growing interest in the use of passive harmonic RFIDs for diverse range of applications. Conventional RFIDs are prone to self-jamming and multipath interference, and these challenges can be mitigated using the harmonic RFID design. Recently several harmonic RFID designs have been demonstrated. However, there are many designs related, packaging and intellectual property challenges associated with new tag designs. It has been well known that conventional RFIDs produce harmonic content, which is typically suppressed to reduce background noise. Previous experiments have demonstrated that the harmonics generated by conventional RFIDs can be utilized to enhance their performance. In this paper, an RFID chip is characterized for the generation of harmonic frequencies. This is carried out by designing a high frequency board that contains calibration structures along with structures to characterize the RFID chip using a one port network. An equivalent model is then developed, which in turn is used to design a dual band antenna that works at the fundamental and harmonic frequencies. In addition, the conventional RFID interrogator is modified to accommodate the measurement of harmonics generated by the RFIDs. A complete harmonic tag system is designed and implemented, and an example application of harmonic RFID is demonstrated. Here, the harmonic RFID tag is used in an industrial setting where there is large clutter (large reflections from metal structures).
基于传统UHF系统的谐波RFID设计与实现
在各种应用中使用无源谐波rfid的兴趣越来越大。传统的RFID容易产生自干扰和多径干扰,而谐波RFID设计可以减轻这些挑战。最近几个谐波RFID设计已经被证明。然而,有许多与新标签设计相关的设计、包装和知识产权挑战。众所周知,传统的rfid产生谐波内容,这通常被抑制以减少背景噪声。以往的实验表明,传统rfid产生的谐波可以用来提高其性能。本文设计了一种射频识别芯片,其特点是产生谐波频率。这是通过设计一个包含校准结构的高频板以及使用单端口网络表征RFID芯片的结构来实现的。然后开发了一个等效模型,该模型反过来用于设计工作在基频和谐波频率上的双频天线。此外,对传统的RFID询问器进行了修改,以适应RFID产生的谐波测量。设计并实现了一个完整的谐波标签系统,并给出了一个谐波RFID的应用实例。在这里,谐波RFID标签用于工业环境中,那里有很大的杂波(金属结构的大反射)。
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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