基于0.18 μm CMOS技术的片上ESD保护的pmos触发SCR器件的优化

2007 14th International Symposium on the Physical and Failure Analysis of Integrated Circuits Pub Date : 2007-07-11 DOI:10.1109/IPFA.2007.4378093

Shih-Hung Chen, M. Ker

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引用次数: 1

摘要

为了在深亚微米CMOS技术中实现高效的ESD保护，提出了具有初始化功能的pmos触发可控硅器件。PMOS触发可控硅器件中嵌入的PMOS晶体管的通道长度决定了触发机制，从而决定了PMOS触发可控硅器件的触发电压、保持电压、导通电阻、二次击穿电流、导通效率和ESD稳健性。在PMOS触发的可控硅器件中，为了在深亚微米或纳米级CMOS技术中实现最有效的ESD保护设计，必须优化PMOS晶体管的沟道长度。

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Optimization of PMOS-triggered SCR devices for on-chip ESD protection in a 0.18-μm CMOS technology

PMOS-triggered SCR devices with initial-on function have been proposed to achieve an efficient ESD protection in deep-submicron CMOS technology. The channel length of the embedded PMOS transistor in the PMOS-triggered SCR device dominates the trigger mechanism to govern the trigger voltage, holding voltage, turned-on resistance, second breakdown current, turn-on efficiency, and ESD robustness of the PMOS-triggered SCR device. The channel lengths of the embedded PMOS transistors in the PMOS-triggered SCR devices should be optimized to achieve the most efficient ESD protection design in deep-submicron or nanoscale CMOS technology.

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2007 14th International Symposium on the Physical and Failure Analysis of Integrated Circuits

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