Hybrid Time/Phase/Frequency Domain Linear Electromagnetic Encoders for Displacement Sensing and Near-Field Chipless-RFID

无芯片射频识别 频域 电磁场 声学 流离失所(心理学) 相(物质) 物理 时域 领域(数学) 电子工程 计算机科学 工程类 光学 数学 谐振器 心理治疗师 计算机视觉 心理学 量子力学 纯数学
作者
Amirhossein Karami‐Horestani,Ferran Paredes,Ferran Martı́n
出处
期刊:IEEE journal of radio frequency identification [Institute of Electrical and Electronics Engineers]
卷期号:8: 134-144 被引量:9
标识
DOI:10.1109/jrfid.2024.3366309
摘要

Hybrid time/phase/frequency domain linear electromagnetic encoders are presented in this paper for the first time. The encoders consist of a linear chain of electric-LC (ELC) resonators etched in a dielectric substrate. Encoding is achieved by phase and frequency modulation simultaneously, namely, by considering different transverse positions and dimensions of the ELC resonators in the chain. The reader is a simple matched microstrip transmission line terminated with a matched load, and encoder reading proceeds by displacing the encoder over the reader line, at short distance, in the direction orthogonal to the line axis. When an ELC resonator lies on top of the line, the phase of the reflection coefficient at resonance depends on the distance to the input port and hence on the transverse position of the resonator in the chain (phase modulation). Moreover, the size of the resonator determines its resonance frequency (frequency modulation). This means that the reader line should be fed by as many harmonic signals as ELC resonator sizes considered, to identify the phase and the resonance frequency of the inclusion (ELC) on top of the line. In this paper, we consider 16 different transverse positions and 4 different sizes of the ELC resonators, which are read sequentially, in a time-division multiplexing scheme. Thus, 6 bits per encoder position (or row) in the chain are achieved. These encoders, with a per-unit-length density of bits of DPL = 6 bit/cm, can be applied to the implementation of synchronous near-field chipless-RFID systems with high data capacity, as well as long-range displacement sensors. In the latter case, the number of bits per encoder row can be doubled (i.e., 12 bits) by considering two chains and two readers, allowing for the discrimination of 212 (= 4096) absolute positions.

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