標題: 應用動態模式最小變異控制器於先進微影製程控制
A Dynamical Model Tuning and Non-linear Minimum Variance Controller for Advanced Photolithography Process Control
作者: 洪志明
Chih-Ming Hung
李安謙
Dr. An-Chen LEE
工學院精密與自動化工程學程
關鍵字: 先進製程控制;微影製程;最小變異控制器;Advanced Process Control;Lithography Process;Minimum-Variance Controller
公開日期: 2005
摘要: 本論文主要目的為設計一套應用於微影製程之關鍵尺寸(Critical Dimension,CD)的先進製程控制方法。利用實驗設計法(Design of Experiment, DOE)找出步進機之輸入變數(製程配方,recipes)與輸出變數(晶圓良率變數:關鍵尺寸)之間的關係,建立批次控制之預測模式,然後利用Recursive係數調變方法,做模式係數的動態調變,以適應製程隨時間變化之變異及干擾,再將已調變完成之模式代入最小變異控制器(Minimum Variance Controller,MVC),使機台的輸入變數可以在改變量最小的限制下,即製程的變動最小的情形下,讓輸出變數快速地到達我們所設定的目標值,以提升製程之良率。
This thesis presents a new run-to-run (R2R) multiple-input-single-out controller for photolithography process. The controller, termed dynamical minimum variance controller, can act both as a dynamical model optimizer and as a controller for given models. In this thesis, the relationships and run-to-run control model among input recipes (Exposure dose and Focus) and output variables (Critical Dimension) are formed by using experimental design method. Then on-line (Recursive) model identification and recipes generation under input and output constraints are performed by using dynamical model optimizer and non-linear minimum variance controller, respectively. Improvements due to advanced control have been quantified in simulations and actual fab operations.
URI: http://140.113.39.130/cdrfb3/record/nctu/#GT009169524
http://hdl.handle.net/11536/64468
Appears in Collections:Thesis