A Compact Low-Loss Reflection-Type Harmonic Transponder for Battery-Less RFID Sensors Based on Harmonic Backscattering

IF 1.6 3区 工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Daju Lee, Juntaek Oh
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引用次数: 0

Abstract

This study presents a compact reflection-type harmonic transponder with a wide input power range for battery-less radio frequency identification (RFID) sensors based on harmonic backscattering. Miniaturizing the circuit size of conventional harmonic transponders is difficult because the input and output matching stages are configured separately, and two antennas are used for each port. The proposed harmonic transponder based on a dual-band matching network matches the load simultaneously at the fundamental and second harmonic frequencies over a wide input power range, thus enhancing the conversion gain (CG) with a compact size. For verification, the proposed transponder is implemented in a compact size with dimensions of 19 mm × 17.8 mm. The measured CG of the implemented transponder is maintained at over −10 dB in the wide input power range of −6.4 dBm to 10.6 dBm at 2.45 GHz. Th e harmonic transponder is configured with a dual-band chip antenna and measured in free space to verify whether it is suitable for battery-less RFID sensors. The measured detectable effective distance to the proposed circuit is 6.3 m in free space, with an equivalent isotropically radiated power of 42.6 dBm.
一种基于谐波后向散射的小型低损耗反射型无电池RFID传感器谐波应答器
本研究提出了一种小型反射型谐波转发器,具有宽输入功率范围,用于基于谐波后向散射的无电池射频识别(RFID)传感器。传统谐波转发器的电路小型化是很困难的,因为输入和输出匹配级是分开配置的,并且每个端口使用两个天线。基于双频匹配网络的谐波转发器在较宽的输入功率范围内同时在基频和次谐波频率上匹配负载,从而提高了转换增益(CG),且体积小。为了验证,提出的应答器实现在一个紧凑的尺寸为19毫米× 17.8毫米。在2.45 GHz时,在−6.4 dBm至10.6 dBm的宽输入功率范围内,所实现的应答器的测量CG保持在−10 dB以上。该谐波应答器配置了双频芯片天线,并在自由空间进行测量,以验证其是否适合无电池RFID传感器。在自由空间中测量到的可探测有效距离为6.3 m,等效各向同性辐射功率为42.6 dBm。
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来源期刊
Journal of electromagnetic engineering and science
Journal of electromagnetic engineering and science ENGINEERING, ELECTRICAL & ELECTRONIC-
CiteScore
2.90
自引率
17.40%
发文量
82
审稿时长
10 weeks
期刊介绍: The Journal of Electromagnetic Engineering and Science (JEES) is an official English-language journal of the Korean Institute of Electromagnetic and Science (KIEES). This journal was launched in 2001 and has been published quarterly since 2003. It is currently registered with the National Research Foundation of Korea and also indexed in Scopus, CrossRef and EBSCO, DOI/Crossref, Google Scholar and Web of Science Core Collection as Emerging Sources Citation Index(ESCI) Journal. The objective of JEES is to publish academic as well as industrial research results and discoveries in electromagnetic engineering and science. The particular scope of the journal includes electromagnetic field theory and its applications: High frequency components, circuits, and systems, Antennas, smart phones, and radars, Electromagnetic wave environments, Relevant industrial developments.
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