Gate-oxide thickness effects on hot-carrier-induced degradation in n-MOSFETs

Southcon/96 Conference Record Pub Date : 1996-06-25 DOI:10.1109/SOUTHC.1996.535099
Y. Gu, J. Yuan
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引用次数: 4

Abstract

The gate-oxide thickness effects on hot-carrier-induced degradation have been investigated for submicron MOSFETs. A thinner gate oxide gives a higher substrate current, but reduced hot electron effects. This is because the thin-gate-oxide device has smaller mobility and threshold voltage degradation due to a shift of damaged interface region towards the drain contact. In this work, the analytical substrate and drain current model has been derived. The model predictions have good agreement with the experimental data for submicron MOSFETs with different oxide thicknesses.
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栅极-氧化物厚度对n- mosfet热载子诱导降解的影响
研究了栅极-氧化物厚度对亚微米mosfet热载子诱导降解的影响。更薄的栅极氧化物产生更高的衬底电流,但减少了热电子效应。这是因为薄栅极氧化物器件具有较小的迁移率和阈值电压退化,这是由于损坏的界面区域向漏极接触移动。在这项工作中,导出了解析基板和漏极电流模型。对于不同氧化层厚度的亚微米mosfet,模型预测与实验数据吻合较好。
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Southcon/96 Conference Record
Southcon/96 Conference Record
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