Dissipativity as a unifying control design framework for suppression of low frequency oscillations in power systems

Author

Stankovic, A.M. ; Stefanov, P.C. ; Tadmor, G. ; Sobajic, D.J.

Author_Institution

Northeastern Univ., Boston, MA, USA

Volume

14

Issue

1

fYear

1999

fDate

2/1/1999 12:00:00 AM

Firstpage

192

Lastpage

199

Abstract

In this paper, the authors present a unifying framework for design of controllers that suppress low-frequency oscillations in power systems. The proposed methodology is based on the physical notion of dissipativity, and on its system-theoretic counterparts. They illustrate the capabilities of this framework in four application areas: power system stabilizers (PSSs); supplementary control for high-voltage DC (HVDC) lines; auxiliary control for static VAr systems (SVCs); and regulation of thyristor-controlled series capacitors (TCSCs). All case studies involve a standard benchmark case of a multi-machine power system, and all controllers use only locally available information

Keywords

HVDC power transmission; control system analysis; control system synthesis; power capacitors; power system control; power system stability; power transmission lines; reactive power control; static VAr compensators; thyristor convertors; HVDC power lines; SVC; TCSC; auxiliary control; case studies; control simulation; dissipativity; low frequency oscillations suppression; multimachine power system; power system stabilizers; power systems; static VAr systems; supplementary control; thyristor-controlled series capacitors; unifying control design framework; Control design; Control system synthesis; Control systems; Frequency; Power system analysis computing; Power system control; Power system modeling; Power systems; Reactive power; Voltage control;

fLanguage

English

Journal_Title

Power Systems, IEEE Transactions on

Publisher

ieee

ISSN

0885-8950

Type

jour

DOI

10.1109/59.744522

Filename

744522