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Design and Implementation of 2.45 GHz Passive SAW Temperature Sensors with BPSK Coded RFID Configuration

机译：具有BPSK编码RFID配置的2.45 GHz无源声表面波温度传感器的设计与实现

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摘要

A surface acoustic wave based passive temperature sensor capable of multiple access is investigated. Binary Phase Shift Keying (BPSK) codes of eight chips were implemented using a reflective delay line scheme on a Y-Z LiNbO3 piezoelectric substrate. An accurate simulation based on the combined finite- and boundary element method (FEM/BEM) was performed in order to determine the optimum design parameters. The scaling factor ‘s’ and time delay factor ‘τ’ were extracted using signal processing techniques based on the wavelet transform of the correlation function, and then evaluated at various ambient temperatures. The scaling factor ‘s’ gave a more stable and reliable response to temperature than the time delay factor ‘τ’. Preliminary results show that the sensor response is fast and consistent subject to ambient temperature and it exhibits good linearity of 0.9992 with temperature varying from 0 to 130 °C.

机译：研究了基于声表面波的无源温度传感器，可以进行多次访问。在Y-Z LiNbO3压电基板上使用反射延迟线方案实现了八个芯片的二进制相移键控（BPSK）码。为了确定最佳设计参数，基于有限元和边界元组合方法（FEM / BEM）进行了精确的仿真。使用基于相关函数的小波变换的信号处理技术提取比例因子“ s”和时间延迟因子“τ”，然后在各种环境温度下进行评估。与时间延迟因子“τ”相比，比例因子“ s”对温度的响应更加稳定和可靠。初步结果表明，在环境温度下，传感器响应快速且一致，在0至130°C的温度范围内，它表现出良好的线性（0.9992）。

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期刊名称 Sensors (Basel Switzerland)
作者
Chen Fu; Yabing Ke; Min Li; Jingting Luo; Honglang Li; Guangxing Liang; Ping Fan;
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作者单位

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年(卷),期 2017(17),8
年度 2017
页码 1849
总页数 10
原文格式 PDF
正文语种
中图分类
关键词
surface acoustic wave (SAW) device passive radio frequency identification (RFID) temperature sensor;

机译：表面声波（SAW）设备;无源;射频识别（RFID）;温度传感器;

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专利

1. Design and Implementation of 2.45 GHz Passive SAW Temperature Sensors with BPSK Coded RFID Configuration [J] . Chen Fu, Yabing Ke, Min Li, Sensors . 2017,第8期

机译：具有BPSK编码RFID配置的2.45 GHz无源声表面波温度传感器的设计与实现
2. Implementation of a 2.45GHz Passive RFID Transponder Chip in 0.18μm CMOS [J] . Meng-Lieh Sheu, Yu-Sheng Tiao, Hang-Yu Fan, Journal of Information Recording . 2010,第2期

机译：在0.18μmCMOS中实现2.45GHz无源RFID应答器芯片
3. IMPLEMENTATION OF 1V 2.45GHZ PASSIVE RFID TRANSPONDER CHIP IN 0.18μm CMOS [J] . Meng-Lieh Sheu, Yu-Sheng Tiao, Pei-Hua Lu International Journal of Electrical Engineering: Transactions of the Chinese Institute of Engineers, Series E . 2009,第3期

机译：在0.18μmCMOS中实现1V 2.45GHZ无源RFID应答器芯片
4. Passive 2.45 GHz TDMA based Multi-Sensor Wireless Temperature Monitoring System: Results and Design Considerations [C] . J. H. Kuypers, S. Tanaka, M. Esashi, IEEE Ultrasonics Symposium . 2006

机译：基于无源2.45 GHz TDMA的多传感器无线温度监测系统：结果与设计考虑因素
5. Design and Implementation of an X-band Passive RFID Tag. [D] . Senadeera, Praharshin Melaka. 2014

机译：X波段无源RFID标签的设计和实现。
6. Design of an Embedded CMOS Temperature Sensor for Passive RFID Tag Chips [O] . Fangming Deng, Yigang He, Bing Li, 2015

机译：用于无源RFID标签芯片的嵌入式CMOS温度传感器的设计
7. Design and Implementation of 2.45 GHz Passive SAW Temperature Sensors with BPSK Coded RFID Configuration [O] . Chen Fu, Yabing Ke, Min Li, 2017

机译：采用BpsK编码RFID配置的2.45 GHz无源saW温度传感器的设计与实现

Design and Implementation of 2.45 GHz Passive SAW Temperature Sensors with BPSK Coded RFID Configuration

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