Precision Positioning of Wafer Scanners Segmented Iterative Learning Control for Nonrepetitive Disturbances [Applications of Control]

Author

Mishra, Sandipan ; Coaplen, Joshua ; Tomizuka, Masayoshi

Author_Institution

California Univ. Berkeley, Berkeley

Volume

27

Issue

4

fYear

2007

Firstpage

20

Lastpage

25

Abstract

Photolithography is a step in semiconductor manufacturing that uses a laser beam to transfer a pattern from a mask to the surface of a silicon wafer. This process is implemented by an optomechanical device called a wafer scanner. Wafer scanners require ultra-high-precision repetitive positioning capabilities. When the disturbances are repetitive, ILC improves performance of wafer-stage positioning from scan to scan. However, in the presence of nonrepetitive disturbances, ILC must be able to extract repetitive information, which is consistent from cycle to cycle, while avoiding nonrepetitive information.

Keywords

adaptive control; integrated circuit manufacture; iterative methods; learning systems; masks; monolithic integrated circuits; photolithography; position control; Precision Positioning; illumination system; iterative learning control; nonrepetitive disturbances; optomechanical device; photolithography; photomask; photoresist layer; semiconductor manufacturing; silicon wafer; wafer scanners; Assembly; Cables; Laser beams; Lenses; Lighting; Optical control; Resists; Semiconductor lasers; Silicon; Surface emitting lasers;

fLanguage

English

Journal_Title

Control Systems, IEEE

Publisher

ieee

ISSN

1066-033X

Type

jour

DOI

10.1109/MCS.2007.384130

Filename

4272324