An Ultra Low Power, Configurable Intelligent Biasing Calibration for Medical Sensor Applications in 130 nm CMOS Technology

机译：适用于130 nm CMOS技术的医疗传感器应用的超低功耗，可配置智能偏置校准

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In this paper, a configurable intelligent biasing calibration methodology is presented for medical sensor applications. The proposed biasing calibration algorithm is applicable for single as well as an array of nanopore sensors in a medical device. This technique compensates the variation among different nanopore sensors by calibrating the gate biasing voltages and improves accuracy and enhances reliability. It also identifies the faulty nanopore sensors. The presented biasing calibration controller is fully synthesizable and it needs only 1.184 K gates for its implementation. It draws only 76.3 nA current from 1.2 V supply its power consumption is only 91.56 nW. The proposed intelligent biasing calibration controller is integrated into a medical sensing system and it is implemented in a 130 nm CMOS process.

机译：本文针对医疗传感器应用提出了一种可配置的智能偏置校准方法。提出的偏置校准算法适用于医疗设备中的单个以及纳米孔传感器阵列。该技术通过校准栅极偏置电压来补偿不同纳米孔传感器之间的差异，从而提高了精度并增强了可靠性。它还可以识别出有问题的纳米孔传感器。所提供的偏置校准控制器是完全可合成的，并且仅需1.184 K门即可实现。它从1.2 V电源仅汲取76.3 nA电流，其功耗仅为91.56 nW。所提出的智能偏置校准控制器已集成到医疗传感系统中，并以130 nm CMOS工艺实现。

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《IEEE International Conference on Big Data and Smart Computing》|2020年|593-596|共4页
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Imran Ali; Huo Yingge; Muhammad Asif; Kang-Yoon Lee;
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Nanobioscience; Calibration; Logic gates; Sensor arrays; Sensitivity; Reliability; DNA;

机译：纳米生物科学;校准;逻辑门;传感器阵列;灵敏度;可靠性; DNA;

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2. A Low-Power CMOS Transceiver in 130nm for Wireless Sensor Network Applications [J] . Behrouj A. R., Ghorbani A. R., Ghaznavi-Ghoushchi M. B., Wireless personal communications: An Internaional Journal . 2019,第3期

机译：130nm的低功耗CMOS收发器，用于无线传感器网络应用
3. CMOSi_(1-x)Ge_x 130 nm High Sensitivity Ultra-Low Power Temperature Sensor [J] . Mourad Hebali, Djilali Berbara, Mohammed Benzohra, Sensor Letters: A Journal Dedicated to all Aspects of Sensors in Science, Engineering, and Medicine . 2017,第4期

机译：CMOSI_（1-X）GE_X 130 NM高灵敏度超低功率温度传感器
4. Ultra-Low-Power Self-Biased 1 nA Current Reference Circuit for Medical Monitoring Devices in 350 nm and 180 nm CMOS Technology [C] . Gayas Mohiuddin Sayed, Pablo Mendoza-Ponce, Wolfgang Krautschneider, GMM/ITG-Fachtagung ANALOG . 2018

机译：适用于采用350 nm和180 nm CMOS技术的医疗监控设备的超低功耗自偏置1 nA电流基准电路
5. Wireless Power and Data Transfer for Biomedical Applications in 130nm CMOS Process. [D] . Avala, Lokesh. 2017

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6. An Ultra-Low-Power RFID/NFC Frontend IC Using 0.18 μm CMOS Technology for Passive Tag Applications [O] . Mayukh Bhattacharyya, Waldemar Gruenwald, Dirk Jansen, 2018

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An Ultra Low Power, Configurable Intelligent Biasing Calibration for Medical Sensor Applications in 130 nm CMOS Technology

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