An EEPROM Programming Controller for Passive UHF RFID Transponders With Gated Clock Regulation Loop and Current Surge Control

Barnett R. E.; Liu J.

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An EEPROM Programming Controller for Passive UHF RFID Transponders With Gated Clock Regulation Loop and Current Surge Control

机译：具有门控时钟调节环路和电流浪涌控制的无源UHF RFID应答器的EEPROM编程控制器

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This paper presents an EEPROM programming controller imbedded in a passive UHF RFID transponder. A 14 V programming voltage is generated and regulated for a 224-bit EEPROM memory array from a rectified voltage supply of 2–3 V. A gated clock regulation loop is proposed to keep the programming voltage constant over a wide range of received RF input power, in order to improve the write–erase endurance of the memory. A current surge control scheme is proposed to allow the EEPROM programming voltage ramping in steps, therefore, preventing the collapse of the rectified supply in the remotely powered transponder. Also presented is a nano-power switched bandgap reference to reduce die area through the reduction of M$Omega$ resistors needed for nano-power operation. Measurement results show that a 0.35 $mu{hbox {m}}$ CMOS transponder IC provides a stable EEPROM programming voltage which varies less than 8% over a large 30 dB input power range while consuming 7 $mu{hbox{W}}$. The EEPROM programming controller occupies 0.092 ${hbox {mm}}^{2}$ die area.

机译：本文提出了一种嵌入在无源UHF RFID应答器中的EEPROM编程控制器。通过2–3 V的整流电源为224位EEPROM存储阵列生成14 V的编程电压并对其进行调节。提出了门控时钟调节环路，以便在很宽的接收RF输入功率范围内保持编程电压恒定，以提高内存的写擦除持久性。提出了一种电流浪涌控制方案，以允许EEPROM编程电压逐步升高，从而防止了远程应答器中整流电源的崩溃。还介绍了一种纳米功率开关带隙基准，可通过减少纳米功率操作所需的M $ Omega $电阻来减小芯片面积。测量结果表明，0.35 µmu {hbox {m}} $ CMOS应答器IC提供了稳定的EEPROM编程电压，在很大的30 dB输入功率范围内变化不到8％，而消耗了7 $ mu {hbox {W}} $ 。 EEPROM编程控制器占用0.092 $ {hbox {mm}} ^ {2} $芯片面积。

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来源
《IEEE Journal of Solid-State Circuits》 |2008年第8期|p.1808-1815|共8页
作者
Barnett R. E.; Liu J.;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类一般性问题;基本电子电路;
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专利

1. Optimisation design for EEPROM embedded in UHF-RFID passive transponders [J] . Ming Li, Li-Wu Yang, Jin-Feng Kang, International journal of electronics . 2011,第4a6期

机译：嵌入UHF-RFID无源应答器中EEPROM的优化设计
2. A current-mode voltage regulator with an embedded sub-threshold reference fora passive UHF RFID transponder [J] . Liu Zhongqi, Zhang Chun, Li Yongming, Journal of Semiconductors . 2010,第6期

机译：具有嵌入式亚阈值参考的无源UHF RFID应答器电流模式稳压器
3. An Ultra Low-Power Solution for EEPROM in Passive UHF RFID Tag IC With a Novel Read Circuit and a Time-Divided Charge Pump [J] . Du, Y., Zhuang, Circuits and Systems I: Regular Papers, IEEE Transactions on . 2013,第8期

机译：具有新型读取电路和时分电荷泵的无源UHF RFID标签IC中EEPROM的超低功耗解决方案
4. An EEPROM Programming Controller for Passive UHF RFID Transponders with Gated Clock Regulation Loop and Current Surge Control [C] . Barnett Ray, Liu Jin, CICC IEEE Custom Integrated Circuits Conference . 2007

机译：具有门控时钟调节环路和电流浪涌控制的无源UHF RFID转发器的EEPROM编程控制器
5. The effect of antennae configuration, product and tag type on readability of passive UHF RFID transponders. [D] . Crawforth, Thomas John Silver. 2005

机译：天线配置，产品和标签类型对无源UHF RFID应答器可读性的影响。
6. An All-Digital Fast Tracking Switching Converter with a Programmable Order Loop Controller for Envelope Tracking RF Power Amplifiers [O] . Nijad Anabtawi, Rony Ferzli, Haidar M. Harmanani -1

机译：具有包络跟踪射频功率放大器的具有可编程阶环控制器的全数字快速跟踪开关转换器
7. A low power signal front-end for passive UHF RFID transponders with a new clock recovery circuit. [O] . 2009

机译：用于无源UHF RFID应答器的低功率信号前端，带有新的时钟恢复电路。

An EEPROM Programming Controller for Passive UHF RFID Transponders With Gated Clock Regulation Loop and Current Surge Control

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