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A 224 PW 260 PPM/°C Gate-Leakage-Based Timer for Ultra-Low Power Sensor Nodes with Second-Order Temperature Dependency Cancellation

机译：基于224 PW 260 PPM /°C栅极泄漏的定时器，用于具有二阶温度相关性抵消功能的超低功率传感器节点

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摘要

A key challenge in the design of on-chip wake-up timers for compact wireless sensor nodes is to achieve high timing accuracy over temperature and supply voltage variation within an ultra-low power budget. We propose a gate-leakage-based frequency-locked timer with first- and second-order cancellation achieving 260 ppm/°C from -5 to 95°C. The timer consumes 224 pW at 90 Hz output frequency with 0.93%/V supply voltage dependence in the 1.1-3.3 V range.

机译：紧凑型无线传感器节点的片上唤醒定时器设计中的关键挑战是在超低功耗预算范围内实现温度和电源电压变化范围内的高定时精度。我们提出了一种基于门泄漏的锁频定时器，其一阶和二阶抵消在-5至95°C时达到260 ppm /°C。定时器在90 Hz输出频率下消耗224 pW的功率，在1.1-3.3 V范围内具有0.93％/ V的电源电压依赖性。

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来源
《IEEE Symposium on VLSI Circuits》|2018年|117-118|共2页
会议地点 Honolulu(US)
作者
Jongyup Lim; Taekwang Jang; Mehdi Saligane; Makoto Yasuda; Satoru Miyoshi; Masaru Kawaminami; David Blaauw; Dennis Sylvester;
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作者单位

University of Michigan MI;

Mie Fujitsu Semiconductor Limited Japan;

Fujitsu Electronics America CA;

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关键词
Gate leakage; Temperature dependence; Temperature sensors; Generators; Temperature measurement; Logic gates;

机译：门极漏电；温度依赖性；温度传感器；发电机；温度测量；逻辑门;

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专利

1. A Sub-nW Multi-stage Temperature Compensated Timer for Ultra-Low-Power Sensor Nodes [J] . Lee Y., Giridhar B., Foo Z., IEEE Journal of Solid-State Circuits . 2013,第10期

机译：超低功耗传感器节点的亚纳米级多级温度补偿定时器
2. Circuit and System Designs of Ultra-Low Power Sensor Nodes With Illustration in a Miniaturized GNSS Logger for Position Tracking: Part II—Data Communication, Energy Harvesting, Power Management, and Digital Circuits [J] . Taekwang Jang, Gyouho Kim, Benjamin Kempke, Circuits and Systems I: Regular Papers, IEEE Transactions on . 2017,第9期

机译：超低功率传感器节点的电路和系统设计，以及用于位置跟踪的微型GNSS记录器中的插图：第二部分-数据通信，能量收集，电源管理和数字电路
3. An Ultra-Low Power 2.4 GHz Transmitter for Energy Harvested Wireless Sensor Nodes and Biomedical Devices [J] . Bhamra Hansraj, Huang Yu-Wen, Yuan Quan, Circuits and Systems II: Express Briefs, IEEE Transactions on . 2021,第1期

机译：用于能量收集的无线传感器节点和生物医学设备的超低功耗2.4 GHz发射器
4. A 224 PW 260 PPM/°C Gate-Leakage-Based Timer for Ultra-Low Power Sensor Nodes with Second-Order Temperature Dependency Cancellation [C] . Jongyup Lim, Taekwang Jang, Mehdi Saligane, Symposium on VLSI Circuits . 2018

机译：用于二阶温度依赖性取消的超低功耗传感器节点的224 PW 260 PPM /°C基于栅极泄漏计时器
5. Ultra-Low Power Optical Interface Circuits for Nearly Invisible Wireless Sensor Nodes [D] . Kim, Gyouho 2014

机译：用于几乎不可见的无线传感器节点的超低功率光接口电路
6. A Wind Energy Powered Wireless Temperature Sensor Node [O] . Chuang Zhang, Xue-Feng He, Si-Yu Li, 2015

机译：风能供电的无线温度传感器节点
7. A Sub-nW Multi-stage Temperature Compensated Timer for Ultra-Low-Power Sensor Nodes [O] . Yoonmyung Lee, Bharan Giridhar, Student Member, 2015

机译：用于超低功耗传感器节点的亚nW多级温度补偿定时器

A 224 PW 260 PPM/°C Gate-Leakage-Based Timer for Ultra-Low Power Sensor Nodes with Second-Order Temperature Dependency Cancellation

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