用于微灰剂量测量的优化叠置radfet

1999 Fifth European Conference on Radiation and Its Effects on Components and Systems. RADECS 99 (Cat. No.99TH8471) Pub Date : 1999-09-13 DOI:10.1109/RADECS.1999.858553

B. O'Connell, C. Mccarthy, B. Lane, A. Mohammadzadeh

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引用次数: 1

摘要

本文详细介绍了叠置radfet设计的改进，以降低初始(辐照前)输出电压(Vo)幅度以及提高辐射灵敏度。高读出电压的问题已被证明是一个缺点。总体堆栈阈值电压(V/sub T/)的增加是由主体(体积)效应因素造成的，它大于单个器件V/sub T/的总和。这种相同的体效应是导致堆叠器件辐射灵敏度增加的因素。通过广泛的工艺和器件仿真以及由此产生的电路仿真，提出并设计了改进的堆叠结构。本文介绍了较低的初始(辐照前)输出电压以及提高辐射灵敏度的新结果。结果表明，在初始输出电压<10 V的情况下，15个堆叠器件的3060/13 W/L (/spl mu/m)几何尺寸可达到8.5 mV/mGy的辐射灵敏度值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Optimised stacked RADFETs for micro-gray dose measurement

This paper details the improvements in the design of stacked RADFETs for lower initial (pre-irradiation) output voltage (Vo) magnitude as well as increased radiation sensitivity. The issue of high read-out voltage has been shown to be a drawback. It is the body (bulk) effect factor that is responsible for the increased overall stack threshold voltage (V/sub T/), which is greater than the sum of the individual devices V/sub T/. This same body effect is the factor responsible for increased radiation sensitivity of stacked devices. From extensive process and device simulation and resultant circuit simulation, modified stack structures have been proposed and designed. New results of lower initial (preirradiation) output voltage as well as increased radiation sensitivity are presented here. Results in this work show radiation sensitivity values of 8.5 mV/mGy achieved with 15 stacked devices of 3060/13 W/L (/spl mu/m) geometry, with an initial output voltage of <10 V.

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1999 Fifth European Conference on Radiation and Its Effects on Components and Systems. RADECS 99 (Cat. No.99TH8471)

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