ESD protection design for the 45-V pLDMOS-SCR (p-n-p-arranged) devices with source-discrete distributions

2016 IEEE 5th Global Conference on Consumer Electronics Pub Date : 2016-10-01 DOI:10.1109/GCCE.2016.7800464

Shen-Li Chen, Yu-Ting Huang, Chih-Ying Yen, K. Chen, Yi-Cih Wu, Jia-Ming Lin, Chih-Hung Yang

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Abstract

An evaluation of electrostatic-discharge (ESD) reliability by changing the source-end layout of 45-V HV pLDMOS devices is investigated in this paper. After testing and systematic analysis, it can be found that a traditional pLDMOS sample is always very weak in ESD issues (It2= 0.107-A). At the same time, if a pLDMOS with a stripe type embedded SCR (p-n-p-arrangement in the drain-end); the corresponding secondary breakdown-current value can be improved about 501.9% as comparing with a pure pLDMOS. Furthermore, when a pLDMOS-SCR possesses the p-n-p-arranged stripe type and source discrete technique, the trigger voltage (Vt1) values of these samples are all about 45-V ~ 47-V. Next, the holding-voltage (Vh) values were slowly increased with the OD-rows number decreased. Also, the secondary breakdown-current (It2) capabilities are upgraded to 3-A ~ 4-A except for S_DIS 3. Eventually, it can be concluded that a discrete distribution in the source region of a pLDMOS-SCR will upgrade the anti-ESD capability effectively as this embedded SCR is p-n-p-arranged in the drain side.

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45 v pLDMOS-SCR (p-n-p排列)器件的ESD保护设计

研究了改变45 v高压pLDMOS器件源端布局对静电放电可靠性的影响。经过测试和系统分析，可以发现传统的pLDMOS样品在ESD问题上总是很弱(It2= 0.107-A)。同时，如果pLDMOS具有条带型嵌入式可控硅(p-n-p排在漏极端);与纯pLDMOS相比，二次击穿电流值可提高约501.9%。此外，当pLDMOS-SCR采用p-n-p排列条纹型和源离散技术时，这些样品的触发电压(Vt1)值均在45 v ~ 47 v之间。其次，保持电压(Vh)值随着od行数的减少而缓慢升高。此外，除S_DIS 3外，二次击穿电流(It2)能力升级为3- a ~ 4-A。最后，可以得出结论，pLDMOS-SCR的源区离散分布将有效提升抗esd能力，因为这种嵌入式SCR是p-n-p排列在漏极侧。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2016 IEEE 5th Global Conference on Consumer Electronics

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