Shallow trench isolation run-to-run control project at Infineon Technologies Richmond

半导体技术 Pub Date : 2002-08-07 DOI:10.1109/ASMC.2002.1001584

P. Jowett, V. Morozov

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引用次数: 5

Abstract

A project was launched to improve Shallow Trench Isolation (STI) etch depth control on magnetically enhanced reactive ion etch (MERIE) chambers. The aim was to reduce the wafer-to-wafer depth variation. The cause of the wafer-to-wafer depth variation was found to be due to a number of factors, including: (a) Multiple chamber/platform of film deposition tools, (b) Multiple Film Thickness Metrology tools, (c) Multiple etch chamber/platform tools and (d) Multiple STI Depth metrology equipment. To account for these variations, a feedback Run-to-Run control loop has been developed. The algorithm utilizes pre-etch film thickness and post-etch STI depth metrology data to output a new etch time for a particular chamber in order to re-center the process. The challenges that where overcome with the Run-to-Run (R2R) algorithm included: (1) Filtering incoming data from possible "flyers," (2) Accounting for uncertainties associated with different metrology tools and (3) Improving the robustness of the control algorithm. After implementation, in-silicon depth standard deviation was reduced to /spl sim/1/3 of its original value. SPC (statistical process control) parameters were also significantly improved.

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列治文英飞凌技术公司的浅沟隔离运行控制项目

启动了一个项目，以改善磁增强反应离子蚀刻(MERIE)室的浅沟隔离(STI)蚀刻深度控制。其目的是减少晶圆与晶圆之间的深度差异。晶圆与晶圆之间深度差异的原因被发现是由许多因素造成的，包括:(a)多个膜沉积工具的多室/平台，(b)多个膜厚度测量工具，(c)多个蚀刻室/平台工具和(d)多个STI深度测量设备。为了解释这些变化，已经开发了一个反馈的运行到运行控制回路。该算法利用预蚀刻膜厚度和后蚀刻STI深度计量数据输出一个新的蚀刻时间为一个特定的腔室，以便重新中心的过程。Run-to-Run (R2R)算法克服的挑战包括:(1)从可能的“传单”中过滤传入数据，(2)考虑与不同计量工具相关的不确定性，(3)提高控制算法的鲁棒性。实施后，硅内深度标准差降至原值的/spl sim/1/3。统计过程控制(SPC)参数也有显著改善。

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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半导体技术

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