带钨包层源/漏极的全耗尽CMOS/SIMOX的ESD保护

Electrical Overstress/Electrostatic Discharge Symposium Proceedings 2000 (IEEE Cat. No.00TH8476) Pub Date : 2000-09-26 DOI:10.1109/EOSESD.2000.890085

H. Koizumi, Y. Komine, Y. Ohtomo, M. Shimaya

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引用次数: 1

摘要

研究了钨包层源/漏极对全耗尽CMOS/SIMOX器件静电放电保护的影响。基于人体模型(HBM)测量了三种覆层w层布局下CMOS输入电路的ESD失效电压。当阈值电压小于0.24 V时，全w包层布局获得了4000 V的高抗静电度，并观察到阈值电压的依赖性。在不同的阈值电压下，包覆W层的阻塞布局提供了超过3500 V的ESD防护水平。缺口w层布局提供3000 V级抗扰度，同时保持栅极的低电阻，以便在输出缓冲器中高速运行。基于这些结果，提出了全耗尽SOI技术中W层的优化布局。

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ESD protection in fully-depleted CMOS/SIMOX with a tungsten-clad source/drain

The effect of a tungsten (W) clad source/drain on the electrostatic discharge (ESD) protection in fully-depleted CMOS/SIMOX devices was studied. The ESD failure voltage based on the human-body model (HBM) in a CMOS input circuit was measured for three types of clad W-layer layouts. High ESD immunity of 4000 V was obtained for the fully-W-clad layout when the threshold voltage was less than 0.24 V and the threshold voltage dependence was observed. The blocked layout of the clad W layer provided an ESD protection level of over 3500 V at varied threshold voltages. A gapped W-layer layout provided 3000 V level immunity while keeping the resistance of the gate electrode low for high-speed operation in the output buffer. Based on these results, an optimized layout for the W layer in fully-depleted SOI technology is presented.

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Electrical Overstress/Electrostatic Discharge Symposium Proceedings 2000 (IEEE Cat. No.00TH8476)

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