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基于无源超高频射频识别标签的湿度传感器设计
引用本文:邓芳明,何怡刚,佐磊,李兵,吴可汗. 基于无源超高频射频识别标签的湿度传感器设计[J]. 物理学报, 2014, 63(18): 188402-188402. DOI: 10.7498/aps.63.188402
作者姓名:邓芳明  何怡刚  佐磊  李兵  吴可汗
作者单位:1. 合肥工业大学电气与自动化工程学院, 合肥 290009;2. 华东交通大学电气与电子工程学院, 南昌 330013
基金项目:国家杰出青年科学基金(批准号:50925727);国防科技预研项目(批准号:C1120110004);教育部科学技术研究重大项目基金(批准号:313018);安徽省科技计划重点项目(批准号:1301022036)资助的课题~~
摘    要:针对无源超高频射频识别传感器标签大规模运用的需求,采用中芯国际0.35μm互补金属氧化物半导体(CMOS)工艺设计并制造了一种低成本、低功耗的湿度传感器.湿度传感器单元采用聚酰亚胺作为感湿材料,利用顶层金属层制作叉指结构电极,制造过程与标准CMOS制造工序兼容,无需任何后处理工艺.接口电路部分基于锁相环原理,采用全数字电容.数字直接转换结构,能够工作在接近工艺阈值电压下.后期测试结果显示,该湿度传感器在常温下灵敏度为36.5 fF%RH,最大回滞偏差为7%,响应时间为20 ms,0.6 V电源电压下消耗2.1μW功率.

关 键 词:湿度传感器  电容式传感器接口电路  锁相环  射频识别
收稿时间:2014-04-01

Complementary metal-oxide-semiconductor humidity sensor design for passive ultra-high frequency radio-frequency identification application
Deng Fang-Ming;He Yi-Gang;Zuo Lei;Li Bing;Wu Ke-Han. Complementary metal-oxide-semiconductor humidity sensor design for passive ultra-high frequency radio-frequency identification application[J]. Acta Physica Sinica, 2014, 63(18): 188402-188402. DOI: 10.7498/aps.63.188402
Authors:Deng Fang-Ming  He Yi-Gang  Zuo Lei  Li Bing  Wu Ke-Han
Affiliation:Deng Fang-Ming;He Yi-Gang;Zuo Lei;Li Bing;Wu Ke-Han;School of Electrical Engineering and Automation,Hefei University of Technology;School of Electrical and Electronic Engineering,East China JiaoTong University;
Abstract:This paper presents a low-cost low-power humidity sensor for applications of ultra-high frequency radio frequency identification sensing tag. The humidity sensor element, based on standard SMIC 0.35 μm complementary metal-oxide-semiconductor technology, utilizes polyimide as sensing material and fabricates the interdigitated electrodes in top metal layer without any further post-processing. The humidity sensor interface, based on phase-locked loop theory, employs fully-digital architecture and achieves direct capacitance-to-digital conversion, which allows the supply voltage to be close to threshold voltage. The measurements at 25 ℃ show that the proposed humidity sensor achieves a sensitivity of 36.5 fF%RH, maximum hysteresis error of 7%, response time of 20 ms, and 2.1 μW power dissipation at 0.6 V supply voltage.
Keywords:humidity sensorcapacitive sensor interfacephase-locked loopradio frequency identification
Keywords:humidity sensor  capacitive sensor interface  phase-locked loop  radio frequency identification
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