Title :
Compensator control for chemical vapor deposition film growth using reduced-order design models
Author :
Kepler, Grace Martinelli ; Tran, Hien T. ; Banks, H.T.
Author_Institution :
Center for Res. in Sci. Comput., North Carolina State Univ., Raleigh, NC, USA
fDate :
8/1/2001 12:00:00 AM
Abstract :
We present a summary of investigations on the use of proper orthogonal decomposition techniques as a reduced basis method for computation of feedback controls and compensators in a high-pressure chemical vapor deposition (HPCVD) reactor. These investigations incorporate multiple species and controls, gas phase reactions, and time dependent tracking signals that are consistent with pulsed vapor reactant inputs. Numerical implementation of the model-based feedback control uses a reduced-order state estimator, based on partial state observations of the fluxes of reactants at the substrate center, which can be achieved with current sensing technology. We demonstrate that the reduced-order state estimator or compensator system is capable of substantial control authority when applied to the full system
Keywords :
chemical vapour deposition; compensation; principal component analysis; process control; reduced order systems; state estimation; state feedback; chemical vapor deposition; compensator; feedback control; high-pressure reactor; numerical simulation; proper orthogonal decomposition; reduced-order design model; state estimator; thin film growth; Chemical vapor deposition; Collaborative work; Feedback control; Inductors; Open loop systems; Optical films; Pressure control; State estimation; Substrates; Thickness control;
Journal_Title :
Semiconductor Manufacturing, IEEE Transactions on
