A microprocessor-based slope-varied digital pumped controller for phase-locked servo system

Author

Hsieh, Guan-Chyun ; Lin, Yuh-Sen

Author_Institution

Dept. of Electron. Eng., Nat. Taiwan Inst. of Technol., Taipei, Taiwan

fYear

1989

fDate

6-10 Nov 1989

Firstpage

372

Abstract

A microprocessor-based slope-varied digital pumped controller (μP-SVDPC) for adapting the system locking performance of the digital pumped phase-locked servo system (DPPLS) is presented. The μP-SVDPC can adaptively provide an optimal-controlled voltage against the coming phase-error for system locking processes. Theoretical analysis and computer simulation for modeling, stabilizing, programming, and designing the μP-SVDPC controller and the μP-DPPLS system are described. A prototype of the μP-DPPLS was constructed and studied experimentally, and a comparison of its experimental results with those of the DPPLS demonstrates the validity of the theoretical results, which predicted a smaller risetime, a shorter settling time, and excellent stability

Keywords

adaptive control; digital control; microcomputer applications; optimal control; servomechanisms; stability; design; digital control; microprocessors; optimal control; phase-error; phase-locked servo system; programming; servomechanisms; slope-varied digital pumped controller; stability; system locking performance; Computer simulation; Control systems; Digital control; Electrical equipment industry; Prototypes; Sampling methods; Servomechanisms; Stability; Velocity control; Voltage control;

fLanguage

English

Publisher

ieee

Conference_Titel

Industrial Electronics Society, 1989. IECON '89., 15th Annual Conference of IEEE

Conference_Location

Philadelphia, PA

Type

conf

DOI

10.1109/IECON.1989.69661

Filename

69661