论文信息 - The application of generalized predictive control in the radiant heating atomic layer deposition reactor

The application of generalized predictive control in the radiant heating atomic layer deposition reactor

Atomic layer deposition (ALD) technology is a self-limiting ultrathin film deposition method. In ALD reactions, the reaction temperature plays a key role. And generalized predictive control (GPC) algorithm is adopted to control the temperature of a radiant heating reactor. The mathematical model of the system's temperature uniformity is calculated with heat transfer theory. Since temperature control is affected by GPC parameters including soften factor, weighting coefficient, sample time etc, it is necessary to study the effect of these parameters. By experiments, the values of soften factor, weighting coefficient and sampling time could be optimized and then be applied in the process of ALD reactions. And conclusions can be draw that soften factor has the largest impact on the algorithm while the influences of weighting coefficient and sampling time are almost negligible. Efficient temperature control of the ALD reactor chamber using GPC algorithm with optimal parameters is demonstrated.

[1] Tuomo Suntola,et al. Atomic Layer Epitaxy , 1985 .

[2] E. Camacho,et al. Generalized Predictive Control , 2007 .

[3] Steven M. George,et al. Thickness dependence of sensor response for CO gas sensing by tin oxide films grown using atomic layer deposition , 2008 .

[4] David Q. Mayne,et al. Model predictive control: Recent developments and future promise , 2014, Autom..

[5] Steven M. George,et al. Surface Chemistry for Atomic Layer Growth , 1996 .

[6] D C Hamilton,et al. Radiant-Interchange Configuration Factors , 1952 .

[7] David W. Clarke,et al. Generalized predictive control - Part I. The basic algorithm , 1987, Autom..

[8] Yong Kuen Ho,et al. Generalized predictive control with dual adaptation , 2012 .

[9] S. George,et al. Erratum to Al2O3 thin film growth on Si (100) using binary reaction sequence chemistry [Thin Solid Films 292 (1997) 135―144] , 2009 .

[10] S. George. Atomic layer deposition: an overview. , 2010, Chemical reviews.

[11] Thomas E. Seidel,et al. Thin film atomic layer deposition equipment for semiconductor processing , 2002 .

[12] Steven M. George,et al. Surface chemistry of Al2O3 deposition using Al(CH3)3 and H2O in a binary reaction sequence , 1995 .

[13] David W. Clarke,et al. Generalized Predictive Control - Part II Extensions and interpretations , 1987, Autom..