基于PQ方法的光刻晶圆台粗精控制系统设计

2010 3rd International Symposium on Systems and Control in Aeronautics and Astronautics Pub Date : 2010-06-08 DOI:10.1109/ISSCAA.2010.5633072

Zhipeng Wu, Xing-lin Chen, Wen-hua Hua, Jia Wang

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引用次数: 1

摘要

步进扫描光刻的晶片级控制系统是一个典型的双级系统。细致动器保证了高跟踪精度，粗致动器进行大行程运动，使细致动器不接近饱和。PQ方法是将一个DISO系统转换为两个SISO系统的有效技术。针对并联SISO系统设计了两个相关控制器，分别确定了粗系统和细系统的带宽，实现了执行器的相对贡献控制。第三个控制器用于保证整个系统的稳定和伺服带宽足够高。s曲线信号跟踪仿真结果表明，整个晶圆台控制系统的性能令人满意，正弦信号跟踪仿真结果表明，粗系统和细系统可以分别用一个闭环响应低频大冲程和高频短冲程信号。

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Design of coarse-fine control system for wafer stage of lithography using PQ method

Wafer stage control system of step-scan lithography is a typical dual-stage system. Fine actuator ensures the high tracking precision and coarse actuator makes large-stroke movement to keep the fine actuator is not closed to saturation. PQ method is an effective technique for transforming a DISO system to two SISO systems. Two correlative controllers are designed for the parallel SISO systems which determine the bandwidths of coarse system and fine system, and the relative actuator contribution can be controlled. The third controller is used to ensure that the whole system is stable and the servo bandwidth is high enough. S-curve signal tracking simulation results show that the performance of whole wafer stage control system is satisfactory, and sine signal tracking simulation results show that coarse system and fine system can respectively respond low frequency large-stroke and high frequency short-stroke signal using one closed loop.

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来源期刊

2010 3rd International Symposium on Systems and Control in Aeronautics and Astronautics

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