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Current Measurement Transducer Based on Current-To-Voltage-To-Frequency Converting Ring Oscillator with Cascade Bias Circuit

机译：基于串级偏置电路的电流-电压-频率转换环形振荡器的电流测量传感器

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摘要

We propose a ring oscillator (RO) based current-to-voltage-to-frequency (I–V–F) converting current transducer with a cascade bias circuit. The I–V–F converting scheme guarantees highly stable biasing against RO, with a rail-to-rail output operation. This device was fabricated using National NanoFab Center (NNFC) 180 nm complementary metal-oxide-semiconductor (CMOS) technology, which achieves a current resolution of 1 nA in a measurement range up to 200 nA. A noise floor of 11.8 pA/√Hz, maximum differential nonlinearity (DNL) of 0.15 in 1 nA steps, and rail-to-rail output with a 1.8 V power supply is achieved. The proposed transducer can be effectively applied to bio-sensing devices requiring a compact area and low power consumption with a low current output. The fabricated structure can be applied to monolithic-three-dimensional integration with a bio-sensing device.

机译：我们提出了一种基于环形振荡器（RO）的具有级联偏置电路的电流-电压-频率（IV）转换电流传感器。 I–V–F转换方案通过轨到轨输出操作确保了对RO的高度稳定偏置。该设备是使用国家纳米工厂中心（NNFC）180 nm互补金属氧化物半导体（CMOS）技术制造的，该技术在高达200 nA的测量范围内实现了1 nA的电流分辨率。噪声本底为11.8 pA /√Hz，最大差分非线性（DNL）为1 nA步长为0.15，具有1.8 V电源的轨至轨输出。提出的换能器可以有效地应用于需要紧凑的面积和低功耗，低电流输出的生物传感设备。所制造的结构可以应用于与生物传感装置的单片三维集成。

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期刊名称 Sensors (Basel Switzerland)
作者
Jongha Park; Jung-Hyun Park; Seong-Ook Jung;
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作者单位

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年(卷),期 2020(20),2
年度 2020
页码 -1
总页数 10
原文格式 PDF
正文语种
中图分类
关键词
current-to-frequency (I–F) converting current transducer; current-to-voltage-to-frequency (I–V–F) converting current transducer; ring oscillator (RO); biosensor;

机译：电流至频率（I–F）转换电流传感器;电流至电压至频率（I–V–F）转换电流传感器;环形振荡器（RO）;生物传感器;

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专利

1. Current Measurement Transducer Based on Current-To-Voltage-To-Frequency Converting Ring Oscillator with Cascade Bias Circuit [J] . Nature reviews Cancer . 2020,第2期

机译：基于电流 - 电压到频率转换环振荡器的电流测量传感器，具有级联偏置电路
2. Capacitance Transducers with a Thermistor Bridge in the Measurement Circuit that Are Based on Self-Excited Oscillators [J] . V. P. Parusov, N. K. Sharuev, V. N. Sharuev Instruments and Experimental Techniques . 2003,第5期

机译：基于自激振荡器的测量电路中带有热敏电阻桥的电容式传感器
3. Differential inductive ratio transducer with short-circuiting ring for displacement measurement [J] . Saxena S.C., Sahu C. IEEE Transactions on Instrumentation and Measurement . 1994,第5期

机译：带有短路环的差动电感比传感器，用于位移测量
4. Fast characterization of PBTI and NBTI induced frequency shifts under a realistic recovery bias using a ring oscillator based circuit [C] . Wang Xiaofei, Seung-hwan Song, Paul Ayan, International Reliability Physics Symposium . 2014

机译：使用基于环形振荡器的电路在真实的恢复偏置下快速表征PBTI和NBTI引起的频移
5. Low-voltage, current-mode trigger circuits and relaxation oscillators. [D] . Su, Si-yuen Szywan. 1998

机译：低压，电流模式触发电路和张弛振荡器。
6. Proceedings: Chronic measurement of epidural pressure with an induction power oscillator transducer. [O] . H G Rylander, H L Taylor, J P Wissinger, 1975

机译：会议记录：使用感应功率振荡器换能器对硬膜外压力进行慢性测量。
7. Nonlinear Analysis of Ring Oscillator and Cross-Coupled Oscillator Circuits [O] . Ge Xiaoqing, Arcak Murat, Salama Khaled N. 2010

机译：环形振荡器和交叉耦合振荡器电路的非线性分析

Current Measurement Transducer Based on Current-To-Voltage-To-Frequency Converting Ring Oscillator with Cascade Bias Circuit

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