Floating-Gate MOS Transistor with Dynamic Biasing as a Radiation Sensor

机译：动态偏置作为辐射传感器的浮栅MOS晶体管

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摘要

This paper describes the possibility of using an Electrically Programmable Analog Device (EPAD) as a gamma radiation sensor. Zero-biased EPAD has the lowest fading and the highest sensitivity in the 300 Gy dose range. Dynamic bias of the control gate during irradiation was presented for the first time; this method achieved higher sensitivity compared to static-biased EPADs and better linear dependence. Due to the degradation of the transfer characteristics of EPAD during irradiation, a function of the safe operation area has been found that determines the maximum voltage at the control gate for the desired dose, which will not lead to degradation of the transistor. Using an energy band diagram, it was explained why the zero-biased EPAD has higher sensitivity than the static-biased EPAD.

机译：本文介绍了使用电可编程模拟设备（EPAD）作为伽马辐射传感器的可能性。零偏EPAD在300 Gy剂量范围内具有最低的衰落和最高的灵敏度。首次展示了辐照过程中控制栅的动态偏置;与静态偏置的EPAD相比，该方法具有更高的灵敏度和更好的线性相关性。由于EPAD在辐照期间的传递特性的下降，已经发现了安全操作区域的功能，该功能确定了用于期望剂量的控制栅极处的最大电压，这不会导致晶体管的劣化。使用能带图，解释了为什么零偏置的EPAD比静态偏置的EPAD具有更高的灵敏度。

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期刊名称 Sensors (Basel Switzerland)
作者
Stefan Ilić; Aleksandar Jevtić; Srboljub Stanković; Goran Ristić;
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作者单位

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年(卷),期 2020(20),11
年度 2020
页码 -1
总页数 26
原文格式 PDF
正文语种
中图分类
关键词
floating-gate MOS transistor; ionizing radiation sensor; ZTC; semiconductor dosimeter; transistor dynamic biasing;

机译：浮栅MOS晶体管电离辐射传感器ZTC半导体剂量计晶体管动态偏置;

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专利

1. A New Floating-gate Radiation Sensor and Readout Circuit in Standard Single-Poly 130-nm CMOS Technology [J] . Zhang Chaoping, Hasan S. M. Rezaul IEEE Transactions on Nuclear Science . 2019,第7期

机译：采用标准单聚合物130nm CMOS技术的新型浮栅辐射传感器和读出电路
2. Programmable Neuron Array Based on a 2-Transistor Multiplier Using Organic Floating-Gate for Intelligent Sensors [J] . A. K. M. Mahfuzul Islam, Masamune Hamamatsu, Tomoyuki Yokota, Emerging and Selected Topics in Circuits and Systems, IEEE Journal on . 2017,第1期

机译：基于2晶体管倍增器的可编程神经元阵列，该阵列使用有机浮栅用于智能传感器
3. An Integrated Speed- and Accuracy-Enhanced CMOS Current Sensor With Dynamically Biased Shunt Feedback for Current-Mode Buck Regulators [J] . Du M.Lee H. Circuits and Systems I: Regular Papers, IEEE Transactions on . 2010,第10期

机译：具有动态偏置并联反馈的集成速度和精度增强型CMOS电流传感器，用于电流模式降压调节器
4. CMOS floating-gate transistor in a heterogeneous printed electronics sensor module [C] . A. Abdool-Rehman, A. Salom, M. du Plessis, Conference on Sensors, MEMS, and Electro-Optic Systems . 2019

机译：CMOS浮栅晶体管在异质印刷电子传感器模块中
5. Low-voltage low-power analog circuit techniques using floating-gate MOS transistors. [D] . Seo, Inchang. 2004

机译：使用浮栅MOS晶体管的低压低功耗模拟电路技术。
6. Using a Floating-Gate MOS Transistor as a Transducer in a MEMS Gas Sensing System [O] . Mario Alfredo Reyes Barranca, Salvador Mendoza-Acevedo, Luis M. Flores-Nava, 2010

机译：在MEMS气敏系统中使用浮栅MOS晶体管作为传感器
7. A Simulation Model For Floating-Gate MOS Synapse Transistors [O] . Kambiz Rahimi, Chris Diorio, Cecilia Hernandez, 2002

机译：浮栅MOS突触晶体管的仿真模型
8. Development of response models for the Earth Radiation Budget Experiment (ERBE) sensors. Part 1: Dynamic models and computer simulations for the ERBE nonscanner, scanner and solar monitor sensors [R] . Halyo, Nesim, Choi, Sang H., Chrisman, Dan A., Jr., 1987

机译：开发地球辐射预算实验（ERBE）传感器的响应模型。第1部分：ERBE非扫描仪，扫描仪和太阳能监测传感器的动态模型和计算机模拟

Floating-Gate MOS Transistor with Dynamic Biasing as a Radiation Sensor

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