通过DSIMS表征掺杂氧化物膜PSG/BPSG/FSG以消除汽车工业中半导体的非零公里故障:主题/类别:良率提高/先进计量

T. Budri, J. Klatt
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引用次数: 0

摘要

含磷和硼的掺杂氧化膜(PSG/BPSG)广泛应用于FEOL薄膜之上的第一介电层的半导体加工中,以保护晶体管免受移动离子污染(Na, Li, K, Mg和Ca)引起的故障。氟掺杂薄膜被用作非掺杂SiO2薄膜的替代品,用于较小几何形状的铝后端技术,在BEOL处具有较低的电容。一些在线计量技术如XRF和FTIR被用于表征和监测这些薄膜的完整性,但只能提供有限的关于薄膜和掺杂物分布的信息。整个薄膜堆栈的DSIMS/TOFSIMS深度概况确实提供了对掺杂剂分布的清晰理解,并突出了已被证明是导致故障的任何变化,并消除了现场中有缺陷的设备部署,特别是汽车行业中使用的设备。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characterization of Doped Oxide Films PSG/BPSG/FSG via DSIMS in Order to Eliminate Nonzero Kilometer Failures from Semiconductors Used in Automotive Industry : Topic/category: Yield Enhancment/Advanced Metrology
Doped oxide films with phosphorus and boron (PSG/BPSG) are widely used in the semiconductor processing on the first dielectric above FEOL films, to protect transistors from failures due to mobile ionic contamination (Na, Li, K, Mg & Ca). Fluorine doped films are utilized as alternatives to un-doped SiO2 films for lower capacitance at the BEOL for smaller geometry aluminum back end technologies. Several in-line metrology techniques such as XRF and FTIR are utilized to characterize and monitor the integrity of those films but only provide limited information about the films and the dopant distribution. DSIMS/TOFSIMS depth profiles of the entire film stack do provide a clear understanding of dopants distribution and highlight any variations that have been proven to be the cause of failures and eliminate defective device deployment in the field, especially devices utilized in automotive industries.
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