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A 415 nW Physically and Mathematically Secure Electro-Quasistatic HBC Node in 65nm CMOS for Authentication and Medical Applications

机译：用于身份验证和医疗应用的65nm CMOS中的415 nW物理和数学上安全的准静态HBC节点

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Applications such as secure authentication, remote health monitoring require secure, low power communication between devices around the body. Radio wave communication protocols, such as Bluetooth, suffer from the problem of signal leakage and high power requirement. Electro QuasiStatic Human Body Communication (EQS-UBC) is the ideal alternative as it confines the signal within the body and also operates at order of magnitude lower power. In this paper, we design a secure HBC SoC node, which uses EQS-UBC for physical security and an AES-256 core for mathematical security. The SoC consumes 415nW power with an active power of 108nW for a data rate of 1kbps, sufficient for authentication and remote monitoring applications. This translates to 100x improvement in power consumption compared to state-of-the-art HBC implementations while providing physical security for the first time.

机译：安全身份验证，远程健康监控等应用程序需要在身体周围的设备之间进行安全的低功耗通信。诸如蓝牙的无线电波通信协议遭受信号泄漏和高功率需求的问题。准静态人体通信（EQS-UBC）是理想的选择，因为它将信号限制在体内，并且以较低的功率级工作。在本文中，我们设计了一个安全的HBC SoC节点，该节点使用EQS-UBC进行物理安全性，并使用AES-256内核进行数学安全性。对于1kbps的数据速率，SoC消耗415nW功率，而有功功率为108nW，足以用于身份验证和远程监视应用。与最新的HBC实现相比，这意味着功耗降低了100倍，同时首次提供了物理安全性。

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《IEEE Custom Integrated Circuits Conference》|2020年|1-4|共4页
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Shovan Maity; Nirmoy Modak; David Yang; Shitij Avlani; Mayukh Nath; Josef Danial; Debayan Das; Parikha Mehrotra; Shreyas Sen;
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Transmitters; Receivers; Sensitivity; Bit error rate; Authentication; Power demand;

机译：发射器;接收器;灵敏度;误码率;认证;功率需求;

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专利

1. Sub-μWRComm: 415-nW 1–10-kb/s Physically and Mathematically Secure Electro-Quasi-Static HBC Node for Authentication and Medical Applications [J] . Maity Shovan, Modak Nirmoy, Yang David, IEEE Journal of Solid-State Circuits . 2021,第3期

机译：Sub-μWrcomm：415-NW 1-10-KB / s的身体和数学上安全的电气准静态HBC节点，用于认证和医疗应用
2. Physically unclonable function using initial waveform of ring oscillators on 65nm CMOS technology [J] . Tanamoto Tetsufumi, Takaya Satoshi, Sakamoto Nobuaki, Japanese journal of applied physics . 2017,第4S期

机译：在65nm CMOS技术上使用环形振荡器的初始波形实现物理上不可克隆的功能
3. A sub-nW neuromorphic receptors for wide-range temporal patterns of post-synaptic responses in 65nm CMOS [J] . You Xuefei, Zjajo Amir, Kumar Sumeet S., Analog Integrated Circuits and Signal Processing . 2019,第3期

机译：65NM CMOS中突触后突触后突出响应的广泛时间模式的亚NW神经晶体受体
4. A 281-nW 43.3 fJ/conversion-step 8-ENOB 25-kS/s asynchronous SAR ADC in 65nm CMOS for biomedical applications [C] . Yuan Chao, Lam Yvonne Y.H. IEEE International Symposium on Circuits and Systems . 2013

机译：用于生物医学应用的65nm CMOS 281nW 43.3 fJ /转换步长8-ENOB 25-kS / s异步SAR ADC
5. Wireless Power and Data Transfer for Biomedical Applications in 130nm CMOS Process. [D] . Avala, Lokesh. 2017

机译：用于130nm CMOS工艺的生物医学应用的无线电源和数据传输。
6. Security Mechanism Based on Hospital Authentication Server for Secure Application of Implantable Medical Devices [O] . Chang-Seop Park -1

机译：基于医院认证服务器的可植入医疗设备安全应用安全机制
7. A 385×385µm2 0.165V 0.27nW Fully-Integrated Supply-Modulated OOK Transmitter in 65nm CMOS for Glasses-Free, Self-Powered, and Fuel-Cell-Embedded Continuous Glucose Monitoring Contact Lens [O] . Kenya HAYASHI, Shigeki ARATA, Ge XU, 2019

机译：385×385μm 2 0.165V 0.27W 0.27W为65nm CMOS的完全集成的电源调制的OOK变送器，用于无眼镜，自动和燃料 - 电池嵌入式连续葡萄糖监测隐形眼镜

A 415 nW Physically and Mathematically Secure Electro-Quasistatic HBC Node in 65nm CMOS for Authentication and Medical Applications

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