Title :
Closed-loop adaptive control for rapid thermal processing
Author :
Belikov, Sergey ; Friedland, Bernard
Author_Institution :
Dept. of Electr. & Comput. Eng., New Jersey Inst. of Technol., Newark, NJ, USA
Abstract :
An important objective of the feedback control for a rapid thermal processing (RTP) system for a semiconductor wafer is to maintain a uniform temperature of the wafer as it follows a given temperature trajectory. In this paper an adaptive control algorithm is developed using a combination of feedback linearization and a new, nonlinear observer for estimating the exogenous disturbance parameters. The dynamic model, exploiting the circular symmetry of the physical configuration, uses coefficients of a Bessel function expansion as the state variables. An interesting separation property of the control algorithm is proved. A simulation study, using process parameters derived from experimental data obtained from an actual RTP system, gives excellent results
Keywords :
Bessel functions; adaptive control; closed loop systems; feedback; integrated circuit manufacture; linearisation techniques; observers; parameter estimation; process control; rapid thermal processing; temperature control; temperature distribution; Bessel function expansion; circular symmetry; closed-loop adaptive control; dynamic model; exogenous disturbance parameter estimation; feedback; linearization; nonlinear observer; rapid thermal processing; semiconductor wafer; temperature control; Adaptive control; Conductors; Feedback control; Hardware; Rapid thermal processing; Temperature control; Temperature sensors; Thermal conductivity; Thermal engineering; Thermal variables control;
Conference_Titel :
Decision and Control, 1995., Proceedings of the 34th IEEE Conference on
Conference_Location :
New Orleans, LA
Print_ISBN :
0-7803-2685-7
DOI :
10.1109/CDC.1995.478462
