A high precision PID controller for inverse unstable plants

Author

Bányász, Cs ; Keviczky, L.

Author_Institution

Comput. & Autom. Res. Inst., Hungarian Acad. of Sci., Budapest, Hungary

Volume

2

fYear

2001

fDate

2001

Firstpage

1183

Abstract

A high precision design methodology for PID regulators used in generic two-degree of freedom (G2DF) systems is introduced. This regulator structure can be considered as a generic PID (GPID) controller scheme providing desired transient properties for both tracking and regulatory performances. It is shown how the H₂-optimal generalized PID regulators and serial compensators must be computed. The design algorithms are given for unstable processes. Simulation examples are also shown presenting the tracking and regulatory transient properties of the GPID closed-loop control systems

Keywords

H^∞ control; adaptive control; closed loop systems; compensation; control system synthesis; self-adjusting systems; suboptimal control; three-term control; tracking; H₂-optimal generalized PID regulators; closed-loop control systems; design algorithms; design methodology; generic two-degree of freedom systems; high precision PID controller; inverse unstable plants; regulator tuning; regulatory performance; self-tuning regulators; serial compensators; tracking performance; transient properties; Automatic control; Control system synthesis; Delay effects; Design automation; Filters; Regulators; Sampling methods; Servomechanisms; Three-term control; Transfer functions;

fLanguage

English

Publisher

ieee

Conference_Titel

Instrumentation and Measurement Technology Conference, 2001. IMTC 2001. Proceedings of the 18th IEEE

Conference_Location

Budapest

ISSN

1091-5281

Print_ISBN

0-7803-6646-8

Type

conf

DOI

10.1109/IMTC.2001.928264

Filename

928264