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Design of an energy-autonomous, disposable, supply-sensing biosensor using bio fuel cell and 0.23-V 0.25-??m zero-Vth all-digital CMOS supply-controlled ring oscillator with inductive transmitter

机译：使用生物燃料电池和带有感应发射器的0.23-V0.25-Ωm零伏特全数字CMOS供电控制环形振荡器设计能量自主的，一次性的，感应供电的生物传感器

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An energy-autonomous, disposable supply-sensing biosensor based on bio fuel cells and a 0.23-V 0.25-μm zero-Vth all-digital CMOS supply-controlled ring oscillator with a current-driven pulse-interval-modulated inductive-coupling transmitter was demonstrated. All-digital and current-driven architecture using zero-Vth transistors enables low-voltage operation and small footprint in cost-competitive legacy CMOS. Measured results with 0.25-μm CMOS testchip successfully demonstrated operation under a 0.23-V supply, which is the lowest supply voltage among reported proximity transmitters. An energy-autonomous biosensing operation using organic bio fuel cells was also demonstrated.

机译：基于生物燃料电池和带有电流驱动脉冲间隔调制感应耦合发射器的0.23V0.25μm零Vth全数字CMOS供电控制环形振荡器的能量自主，一次性使用的供应感应生物传感器演示。使用零Vth晶体管的全数字和电流驱动架构可在具有成本竞争力的传统CMOS中实现低电压操作和较小的占位面积。使用0.25μmCMOS测试芯片的测量结果成功地证明了在0.23V电源下的操作，这是所报道的接近变送器中最低的电源电压。还证明了使用有机生物燃料电池的能量自主生物传感操作。

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《Asia and South Pacific Design Automation Conference》|2016年|23-24|共2页
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Kiichi Niitsu; Atsuki Kobayashi; Yudai Ogawa; Matsuhiko Nishizawa; Kazuo Nakazato;
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1. A Self-Powered Supply-Sensing Biosensor Platform Using Bio Fuel Cell and Low-Voltage, Low-Cost CMOS Supply-Controlled Ring Oscillator With Inductive-Coupling Transmitter for Healthcare IoT [J] . Kiichi Niitsu, Atsuki Kobayashi, Yuya Nishio, Circuits and Systems I: Regular Papers, IEEE Transactions on . 2018,第9期

机译：使用生物燃料电池和低电压，低成本CMOS供电控制环形振荡器的自供电式供电生物传感器平台，带电感耦合变送器，用于医疗保健物联网
2. Energy-efficient and low-voltage design methodology for a supply-sensing CMOS biosensor using biofuel cells for energy-autonomous healthcare applications [J] . Kobayashi Atsuki, Ikeda Kei, Nakazato Kazuo, Japanese journal of applied physics . 2017,第1S期

机译：能源自给自足的医疗应用中使用生物燃料电池的电源感应CMOS生物传感器的节能高效低压设计方法
3. Energy-autonomous biosensing platform using supply-sensing CMOS integrated sensor and biofuel cell for next-generation healthcare Internet of Things [J] . Niitsu Kiichi Japanese journal of applied physics . 2018,第10期

机译：能源自给自足的生物传感平台，使用感应式CMOS集成传感器和生物燃料电池，用于下一代医疗保健物联网
4. Design of an energy-autonomous, disposable, supply-sensing biosensor using bio fuel cell and 0.23-V 0.25-??m zero-Vth all-digital CMOS supply-controlled ring oscillator with inductive transmitter [C] . Kiichi Niitsu, Atsuki Kobayashi, Yudai Ogawa, Asia and South Pacific Design Automation Conference . 2016

机译：使用生物燃料电池和0.23V 0.25 - Δ的能量自主，一次性供应感应生物传感器的设计与电感变送器的0.23V 0.25 - Δωm零Vth全数字CMOS供应控制环振荡器
5. Conducting Polymers in the Design of Biosensors and Biofuel Cells [O] . Simonas Ramanavicius, Arunas Ramanavicius 2021

机译：在生物传感器和生物燃料细胞的设计中进行聚合物

Design of an energy-autonomous, disposable, supply-sensing biosensor using bio fuel cell and 0.23-V 0.25-??m zero-Vth all-digital CMOS supply-controlled ring oscillator with inductive transmitter

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