薄型大型板形测量的三点支撑反演精度估计

Jsme International Journal Series C-mechanical Systems Machine Elements and Manufacturing Pub Date : 2006-09-15 DOI:10.1299/JSMEC.49.930

Yukihiro Ito, W. Natsu, M. Kunieda, Noriyuki Maruya, Nobuaki Iguchi

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引用次数: 9

摘要

本文介绍了用三点支撑反相法测量薄型大型板形的误差分析和可重复性。在这种测量方法中，由于被测物体被三个点水平支撑，所以可以进行稳定的测量。此外，通过消除重力的影响，可以获得被测物体的真实形状。然而，由于测量系统和被测对象的误差因素较多，对薄型大板的形状进行精确测量是一项困难的工作。结果表明，由测量系统误差引起的综合标准不确定度为0.408µm，测量系统的运动精度是主要影响因素。翘曲测量的重复性为0.254µm。测量系统和硅片的振动以及硅片与支架摩擦引起的硅片畸变对测量重复性的影响是等效的。当翘曲较大时，数据采样间隔的影响并非不显著。

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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Accuracy Estimation of Shape Measurement of Thin-Large Panel with Three-Point-Support Inverting Method

This paper describes the error analysis and the repeatability of the shape measurement of thin-large panel by the three-point-support inverting method. In this measuring method, the stable measurement can be carried out because the measured object is supported horizontally by three points. Moreover, the true shape of the measured object can be obtained by cancelling the effects of gravity. However, accurate measurement of the shape of thin-large panel is difficult because there are many error factors originated from both the measuring system and measured object. It was found that the combined standard uncertainty due to the errors caused by the measuring system was 0.408µm and the motion accuracy of the measuring system was the dominant factor. Repeatability of the warp measurement was 0.254µm. Effects of the vibrations of the measuring system and the silicon wafer and the distortion of the silicon wafer due to the friction between the wafer and supports on the repeatability were equivalent. The influence of the data sampling interval was not insignificant when the warp was large.

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Jsme International Journal Series C-mechanical Systems Machine Elements and Manufacturing

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