A Security-Enhanced, Charge-Pump-Free, ISO14443-A-/ISO10373-6-Compliant RFID Tag With 16.2-μW Embedded RRAM and Reconfigurable Strong PUF

Qirui Ren; Qiang Huo; Zhisheng Chen; Qi Gao; Yiming Wang; Yiming Yang; Hao Wu; Xiangqu Fu; Xiaoxin Xu; Qing Luo; Jianfeng Gao; Chengying Chen; Xiaojin Zhao; Dengyun Lei; Xinghua Wang; Feng Zhang; Yong Chen; Pui In Mak

doi:10.1109/TVLSI.2022.3222522

A Security-Enhanced, Charge-Pump-Free, ISO14443-A-/ISO10373-6-Compliant RFID Tag With 16.2-μW Embedded RRAM and Reconfigurable Strong PUF

Qirui Ren, Qiang Huo, Zhisheng Chen, Qi Gao, Yiming Wang, Yiming Yang, Hao Wu, Xiangqu Fu, Xiaoxin Xu, Qing Luo, Jianfeng Gao, Chengying Chen, Xiaojin Zhao, Dengyun Lei^*, Xinghua Wang^*, Feng Zhang^*, Yong Chen^*, Pui In Mak

^*此作品的通讯作者

集成电路与电子学院

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

Radio frequency identification technology (RFID) has empowered a wide variety of automation industries, such as logistics and freight transportation. To further promote RFID tags adoption, security, power consumption, and cost have always been issues of general concern. This article presents the first synergy of the RFID tag with embedded resistive RAM (RRAM) array and RRAM-based reconfigurable strong physical unclonable function (R-SPUF). The RRAM not only meets the mass storage and technology downscaling but also renders the ultralow-cost '1-cent RFID tag' more feasible. Moreover, the R-SPUF facilitates multiple initializations until a satisfactory distribution and has strong secure keys benefiting from its reconfigurability that improves both safety and reliability. The complete system operates at 13.56 MHz and is compliant with the ISO14443-A and ISO10373-6 (test) protocols. The RFID tag was fabricated on a 1.1-mm2 die based on the 0.18-μm CMOS process. Without resorting to the charge pumps for RRAM read-write operations, the total power consumption is as low as 52.3 μW, of which the RRAM dissipates 16.2μW under a wireless power supply.

源语言	英语
页（从-至）	243-252
页数	10
期刊	IEEE Transactions on Very Large Scale Integration (VLSI) Systems
卷	31
期	2
DOI	https://doi.org/10.1109/TVLSI.2022.3222522
出版状态	已出版 - 1 2月 2023

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10.1109/TVLSI.2022.3222522

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Ren, Q., Huo, Q., Chen, Z., Gao, Q., Wang, Y., Yang, Y., Wu, H., Fu, X., Xu, X., Luo, Q., Gao, J., Chen, C., Zhao, X., Lei, D., Wang, X., Zhang, F., Chen, Y., & Mak, P. I. (2023). A Security-Enhanced, Charge-Pump-Free, ISO14443-A-/ISO10373-6-Compliant RFID Tag With 16.2-μW Embedded RRAM and Reconfigurable Strong PUF. IEEE Transactions on Very Large Scale Integration (VLSI) Systems, 31(2), 243-252. https://doi.org/10.1109/TVLSI.2022.3222522

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title = "A Security-Enhanced, Charge-Pump-Free, ISO14443-A-/ISO10373-6-Compliant RFID Tag With 16.2-μW Embedded RRAM and Reconfigurable Strong PUF",

abstract = "Radio frequency identification technology (RFID) has empowered a wide variety of automation industries, such as logistics and freight transportation. To further promote RFID tags adoption, security, power consumption, and cost have always been issues of general concern. This article presents the first synergy of the RFID tag with embedded resistive RAM (RRAM) array and RRAM-based reconfigurable strong physical unclonable function (R-SPUF). The RRAM not only meets the mass storage and technology downscaling but also renders the ultralow-cost '1-cent RFID tag' more feasible. Moreover, the R-SPUF facilitates multiple initializations until a satisfactory distribution and has strong secure keys benefiting from its reconfigurability that improves both safety and reliability. The complete system operates at 13.56 MHz and is compliant with the ISO14443-A and ISO10373-6 (test) protocols. The RFID tag was fabricated on a 1.1-mm2 die based on the 0.18-μm CMOS process. Without resorting to the charge pumps for RRAM read-write operations, the total power consumption is as low as 52.3 μW, of which the RRAM dissipates 16.2μW under a wireless power supply.",

keywords = "Current sense amplifier (CSA), low cost, low power, physical unclonable function (PUF), radio frequency identification technology (RFID), resistive RAM (RRAM), security",

author = "Qirui Ren and Qiang Huo and Zhisheng Chen and Qi Gao and Yiming Wang and Yiming Yang and Hao Wu and Xiangqu Fu and Xiaoxin Xu and Qing Luo and Jianfeng Gao and Chengying Chen and Xiaojin Zhao and Dengyun Lei and Xinghua Wang and Feng Zhang and Yong Chen and Mak, {Pui In}",

note = "Publisher Copyright: {\textcopyright} 1993-2012 IEEE.",

year = "2023",

month = feb,

day = "1",

doi = "10.1109/TVLSI.2022.3222522",

language = "English",

volume = "31",

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Ren, Q, Huo, Q, Chen, Z, Gao, Q, Wang, Y, Yang, Y, Wu, H, Fu, X, Xu, X, Luo, Q, Gao, J, Chen, C, Zhao, X, Lei, D, Wang, X, Zhang, F, Chen, Y & Mak, PI 2023, 'A Security-Enhanced, Charge-Pump-Free, ISO14443-A-/ISO10373-6-Compliant RFID Tag With 16.2-μW Embedded RRAM and Reconfigurable Strong PUF', IEEE Transactions on Very Large Scale Integration (VLSI) Systems, 卷 31, 号码 2, 页码 243-252. https://doi.org/10.1109/TVLSI.2022.3222522

TY - JOUR

T1 - A Security-Enhanced, Charge-Pump-Free, ISO14443-A-/ISO10373-6-Compliant RFID Tag With 16.2-μW Embedded RRAM and Reconfigurable Strong PUF

AU - Ren, Qirui

AU - Huo, Qiang

AU - Chen, Zhisheng

AU - Gao, Qi

AU - Wang, Yiming

AU - Yang, Yiming

AU - Wu, Hao

AU - Fu, Xiangqu

AU - Xu, Xiaoxin

AU - Luo, Qing

AU - Gao, Jianfeng

AU - Chen, Chengying

AU - Zhao, Xiaojin

AU - Lei, Dengyun

AU - Wang, Xinghua

AU - Zhang, Feng

AU - Chen, Yong

AU - Mak, Pui In

PY - 2023/2/1

Y1 - 2023/2/1

N2 - Radio frequency identification technology (RFID) has empowered a wide variety of automation industries, such as logistics and freight transportation. To further promote RFID tags adoption, security, power consumption, and cost have always been issues of general concern. This article presents the first synergy of the RFID tag with embedded resistive RAM (RRAM) array and RRAM-based reconfigurable strong physical unclonable function (R-SPUF). The RRAM not only meets the mass storage and technology downscaling but also renders the ultralow-cost '1-cent RFID tag' more feasible. Moreover, the R-SPUF facilitates multiple initializations until a satisfactory distribution and has strong secure keys benefiting from its reconfigurability that improves both safety and reliability. The complete system operates at 13.56 MHz and is compliant with the ISO14443-A and ISO10373-6 (test) protocols. The RFID tag was fabricated on a 1.1-mm2 die based on the 0.18-μm CMOS process. Without resorting to the charge pumps for RRAM read-write operations, the total power consumption is as low as 52.3 μW, of which the RRAM dissipates 16.2μW under a wireless power supply.

AB - Radio frequency identification technology (RFID) has empowered a wide variety of automation industries, such as logistics and freight transportation. To further promote RFID tags adoption, security, power consumption, and cost have always been issues of general concern. This article presents the first synergy of the RFID tag with embedded resistive RAM (RRAM) array and RRAM-based reconfigurable strong physical unclonable function (R-SPUF). The RRAM not only meets the mass storage and technology downscaling but also renders the ultralow-cost '1-cent RFID tag' more feasible. Moreover, the R-SPUF facilitates multiple initializations until a satisfactory distribution and has strong secure keys benefiting from its reconfigurability that improves both safety and reliability. The complete system operates at 13.56 MHz and is compliant with the ISO14443-A and ISO10373-6 (test) protocols. The RFID tag was fabricated on a 1.1-mm2 die based on the 0.18-μm CMOS process. Without resorting to the charge pumps for RRAM read-write operations, the total power consumption is as low as 52.3 μW, of which the RRAM dissipates 16.2μW under a wireless power supply.

KW - Current sense amplifier (CSA)

KW - low cost

KW - low power

KW - physical unclonable function (PUF)

KW - radio frequency identification technology (RFID)

KW - resistive RAM (RRAM)

KW - security

UR - http://www.scopus.com/inward/record.url?scp=85144087404&partnerID=8YFLogxK

U2 - 10.1109/TVLSI.2022.3222522

DO - 10.1109/TVLSI.2022.3222522

M3 - Article

AN - SCOPUS:85144087404

SN - 1063-8210

VL - 31

SP - 243

EP - 252

JO - IEEE Transactions on Very Large Scale Integration (VLSI) Systems

JF - IEEE Transactions on Very Large Scale Integration (VLSI) Systems

IS - 2

ER -

A Security-Enhanced, Charge-Pump-Free, ISO14443-A-/ISO10373-6-Compliant RFID Tag With 16.2-μW Embedded RRAM and Reconfigurable Strong PUF

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