Closed loop pneumatic position control using discrete time model regulation

Author

Güvenç, Levent

Author_Institution

Dept. of Mech. Eng., Istanbul Tech. Univ., Turkey

Volume

6

fYear

1999

fDate

1999

Firstpage

4273

Abstract

Nonlinear valve characteristics and the compressibility of air make pneumatic position control a quite difficult task. A model regulation scheme called discrete time model regulation (DMR) and originally proposed for sensitivity reduction in systems with significant amounts of plant model uncertainty is applied to a pneumatic system here to make its input-output relationship follow that of its nominal model, simplifying the remaining feedback position controller design significantly. First, the DMR method is introduced and its limitations are evaluated analytically. Its effectiveness in dealing with large changes in pneumatic system parameters is demonstrated using simulation results. It is finally shown that plant dynamics improvements comparable to those achieved using differential pressure feedback can be obtained by using DMR with the benefits of not having to use a pressure sensor

Keywords

closed loop systems; control system synthesis; discrete time systems; feedback; nonlinear control systems; pneumatic control equipment; position control; valves; I/O relationship; air compressibility; closed loop pneumatic position control; differential pressure feedback; discrete time model regulation; feedback position controller design; input-output relationship; model regulation scheme; nonlinear valve characteristics; plant model uncertainty; sensitivity reduction; Adaptive control; Costs; Mechanical engineering; Open loop systems; Output feedback; Pneumatic systems; Position control; Regulators; Uncertainty; Valves;

fLanguage

English

Publisher

ieee

Conference_Titel

American Control Conference, 1999. Proceedings of the 1999

Conference_Location

San Diego, CA

ISSN

0743-1619

Print_ISBN

0-7803-4990-3

Type

conf

DOI

10.1109/ACC.1999.786370

Filename

786370