高达25 mrad (Si)的SOI mosfet模拟性能

Proceedings of the Third European Conference on Radiation and its Effects on Components and Systems Pub Date : 1995-09-18 DOI:10.1109/RADECS.1995.509766

F. Faccio, P. Aspell, E. Heijne, P. Jarron, G. Borel

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引用次数: 3

摘要

我们研究了HSOI3-HD技术(由Thomson TCS, St. Egreve, France产业化)在总剂量为25 Mrad的电离辐射下的模拟性能。对静态参数及其演化进行了提取，并对噪声进行了特别的研究。我们发现，大多数损害发生在最初的12毫拉德，因此该技术可以在预计总剂量为数十毫拉德的地方找到应用。在低噪声集成电路中，应选择p通道晶体管作为关键元件，其跨导性能最大可降低18%，并具有较好的1/f噪声性能。通过体偏可以控制噪声谱中的生成-复合分量。我们研究了产生这种现象的捕获中心的能级，发现它不受辐照的影响。

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Analog performance of SOI MOSFETs up to 25 mrad (Si)

We have studied the analog performance of the HSOI3-HD technology (industrialized by Thomson TCS, St. Egreve, France) up to a total dose of 25 Mrad of ionising radiation. Static parameters and their evolution have been extracted, and particular attention has been devoted to the noise. We found that most of the damage occurs in the first 12 Mrad, so the technology can find applications where tens of Mrad total doses are foreseen. P-channel transistors should be chosen as key elements in low noise ICs, with a maximum degradation of 18% in transconductance and better 1/f noise performance. A Generation-Recombination component in the noise spectra can be controlled through the body bias. We have studied the energy level of the trapping centers responsible for it and found that it is not modified by the irradiation.

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Proceedings of the Third European Conference on Radiation and its Effects on Components and Systems

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