Development of an on-line hybrid electronic radiation dosimeter for a mobile robot using pMOSFET and SiC diode

Seung Min Lee, Heung-Ho Lee
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Abstract

This paper describes the development effort of a hybrid electronic radiation detector/dosimeter using a SiC diode and a p-type power MOSFET. To select the best candidate for the dosimeter among commercial devices, we have investigated the radiation performance of the devices in two Co-60 irradiation facilities in Korea. As a result of the investigation, two semiconductor sensors with excellent proportionality to incident radiation were identified. A small hybrid radiation-detection/dosimetry module with the two sensors has been developed. The real-time detector module is also radiation hardened for an ionizing radiation environment with well over 100 krad (SiO2) dose. The developed small and simple semiconductor electronic dosimeter is unique in terms of its extended dose range (/spl sim/100 krad), dose-rate (50 rad/hr /spl sim/ 8 krad/hr) capability, and its level of redundancy/diversity along with its size/weight.
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基于pMOSFET和SiC二极管的移动机器人在线混合电子辐射剂量计的研制
本文介绍了采用碳化硅二极管和p型功率MOSFET的混合电子辐射探测器/剂量计的研制工作。为了在商用设备中选择最佳的候选剂量计,我们在韩国的两个Co-60辐照设施中研究了该设备的辐射性能。研究的结果是,确定了两个与入射辐射具有良好比例的半导体传感器。一个小型混合辐射探测/剂量测定模块与这两个传感器已经开发。实时探测器模块还具有抗辐射能力,适用于剂量超过100克拉(SiO2)的电离辐射环境。开发的小型和简单的半导体电子剂量计在其扩展剂量范围(/spl sim/100克拉),剂量率(50拉德/小时/spl sim/ 8克拉/小时)能力以及其冗余/多样性水平以及其尺寸/重量方面是独一无二的。
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