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UHF RFID标签芯片整流电路设计 被引量:4

Design of rectifiers for UHF RFID tag IC
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摘要 整流电路的设计是无源射频识别(RFID)标签的关键技术之一。首先讨论了超高频无源电子标签整流电路的基本工作原理,然后分析了整流电路的等效电路模型。基于TSMC0.18μmCMOS混合信号工艺设计了一种具有双输出的整流电路,并通过MPW项目流片验证。测试结果表明,该电路具有低输入电压,高整流效率的特点。 The design of rectifiers is one of the key technologies of passive radio frequency identification ( RFID). The work principle of passive UHF RF/D tag IC was discussed, and then the equivalent circuit model was analyzed. Based on TSMC 0. 18 μm CMOS mixed signal processing, a dual output rectifier was designed and verified in the MPW project. Test results show that the circuit has low input voltage and high Power Conversion Efficiency (PCE).
作者 曾辉 黄科 李建 朱学勇 文光俊
机构地区 电子科技大学通信与信息工程学院
出处 《计算机应用》 CSCD 北大核心 2009年第B12期356-358,共3页 journal of Computer Applications
关键词 超高频 射频识别 标签 整流电路 CMOS ultrahigh frequency Radio Frequency IDentification (RFID) tag rectifier CMOS
分类号 TP342 [自动化与计算机技术—计算机系统结构]
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参考文献5

  • 1NOR N H M, AMIN N. Design and optimization of power rectifiers for passive RFID systems in monolithic CMOS circuit [ C ]// SCORED 2007: 5th Student Conference on Research and Development. Washington DC: IEEE, 2007,5:1-5.
  • 2TRAN N, LEE B, LEE J W. Development of long-rang UHF-band RFID tag chip using schottky diodes in standard CMOS technology [C]// Radio Frequency Integrated Circuits (RFIC) Symposium. Washington DC: IEEE, 2007:281 - 284.
  • 3YI J, KI W-H, TSUI C-Y. Analysis and design strategy of UHF micro-power CMOS rectifiers for micro-sensor and RFID applications [ J]. IEEE Transactions on Circuits and Systems Ⅰ: Regular Papers, 2007, 54(6) : 1406 - 1406.
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同被引文献48

  • 1王海峰,王敬超,张春,王志华.一种超高频RFID读写器设计[J].微计算机信息,2008,24(8):233-235. 被引量:15
  • 2邹志革,邹雪城,黄峰.低压低功耗模拟集成电路设计技术及展望[J].微电子学,2006,36(1):60-65. 被引量:9
  • 3UMEDA T,YOSHIDA H,SEKINE S,et al.A 950-MHz rectifier circuit for sensor network tags with 10-m distance[J].IEEE J Sol Sta Circ,2006,41(1):35-41.
  • 4UENO K,HIROSE T,ASAI T,et al.A 300nW,15ppm/℃,20ppm/V CMOS voltage reference circuitconsisting of subthreshold MOSFETs[J].IEEE J SolSta Circ,2009,44(7):2047-2054.
  • 5CHENG M-H,WU Z-W.Low-power low-voltage ref-erence using peaking current mirror circuit[J].ElecLett,2005,41(10):572-573.
  • 6HUANG P-H.,LIN H,LIN Y-T.A simple sub-threshold CMOS voltage reference circuit with channel-length modulation compensation[J].IEEE Trans CircSyst II,Exp Briefs,2006,53(9):882-885.
  • 7DE VITA G,IANNACCONE G.A sub-1V,10ppm/℃,nanopower voltage reference generator[J].IEEE J Sol StaCirc,2007,42(7):1536-1542.
  • 8周盛华,吴南健.CMOS超高频整流器[J].Journal of Semiconductors,2007,28(9):1471-1476. 被引量:2
  • 9Gu L, Stankovic J A. Radio-triggered wake-up for wireless sensor networks [ J ]. Real-Time Systems ,2005,29 (2 -3 ) : 157 -182.
  • 10Le-Huy P, Roy S. Low-power wake-up radio for wireless sensor networks [ J ]. Mobile Networks and Applications, 2010,15 ( 2 ) : 226 -236.

引证文献4

二级引证文献50

计算机应用
2009年 第B12期

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