Fen Chen, S. Mittl, M. Shinosky, A. Swift, R. Kontra, B. Anderson, J. Aitken, Yanfeng Wang, E. Kinser, M. Kumar, Y. Wang, T. Kane, K. Feng, W. Henson, D. Mocuta, Di-An Li
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引用次数: 31
摘要
在先进的VLSI电路中,多晶硅控制栅极(PC)和扩散触点(CA)之间的最小绝缘体间距由于不断的技术缩放而急剧缩小。同时,金属栅极、外延SiGe源/漏极、应力衬垫和铜触点等新材料的快速采用,以及上升源/漏极和FinFET等新器件配置,可能进一步加剧PC-CA介电可靠性。在32nm技术开发过程中,由于中线(MOL) PC-CA短路和早期击穿,SRAM和DRAM芯片的SRAM良率损失和功能应力失效已经被观察到。因此,中线(MOL) pc - ca介质的泄漏和击穿正迅速成为一个新兴的可靠性问题,以确保技术的成功发展。本文对32nm工艺节点上MOL PC-to-CA的可靠性问题进行了全面研究。开发了一种新的鉴定方法,以确保pc到ca的可靠性处于可接受的水平。
Investigation of emerging middle-of-line poly gate-to-diffusion contact reliability issues
The minimum insulator spacing between the polysilicon control gate (PC) and the diffusion contacts (CA) in advanced VLSI circuits is aggressively shrinking due to continuous technology scaling. Meanwhile, rapid adoptions of new materials such as metal gate, epitaxial SiGe source /drain, stress liner, and copper contact together with new device configurations such as raised source/drain and FinFET may further exacerbate the PC-CA dielectric reliability. SRAM yield loss and functional stress failures of both SRAM and DRAM chips due to middle-of-line (MOL) PC-CA shorts and early breakdown have been observed during the course of technology development at 32nm. Therefore, the leakage and breakdown of middle-of-line (MOL) PC-to-CA dielectric is rapidly becoming an emerging reliability issue for a successful technology development. In this paper, a comprehensive investigation of MOL PC-to-CA reliability issues at 32nm technology node was conducted. A new qualification methodology was developed to assure PC-to-CA reliability at an acceptable level.
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