Enhanced power system stability by coordinated PSS design

Adam Dysko; William Leithead; John O'Reilly

doi:10.1109/TPWRS.2009.2036704

Enhanced power system stability by coordinated PSS design

Adam Dysko, William Leithead, John O'Reilly

Electronic And Electrical Engineering

Research output: Contribution to journal › Article › peer-review

99 Citations (Scopus)

Abstract

A step-by-step coordinated design procedure for power system stabilisers (PSSs) and automatic voltage regulators (AVRs) in a strongly coupled system is described in this paper. It is shown that it is possible to separate the design of individual PSSs and separate the design of individual AVRs. Thereby, the designs of AVR and PSS devices at a given machine can be coordinated to achieve near-optimal overall power system stability performance, including oscillation stability performance and transient stability performance. The proposed coordinated PSS/AVR design procedure is established within a frequency-domain framework and serves as a most useful small-signal complement to established large-signal transient simulation studies.

Original language	English
Pages (from-to)	413-422
Number of pages	10
Journal	IEEE Transactions on Power Systems
Volume	25
Issue number	1
DOIs	https://doi.org/10.1109/TPWRS.2009.2036704
Publication status	Published - 1 Feb 2010

Keywords

multimachine systems
oscillation mode stabilization
power system stabiliser (PSS)
automatic voltage regulator (AVR)
transient stability
design

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10.1109/TPWRS.2009.2036704

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title = "Enhanced power system stability by coordinated PSS design",

abstract = "A step-by-step coordinated design procedure for power system stabilisers (PSSs) and automatic voltage regulators (AVRs) in a strongly coupled system is described in this paper. It is shown that it is possible to separate the design of individual PSSs and separate the design of individual AVRs. Thereby, the designs of AVR and PSS devices at a given machine can be coordinated to achieve near-optimal overall power system stability performance, including oscillation stability performance and transient stability performance. The proposed coordinated PSS/AVR design procedure is established within a frequency-domain framework and serves as a most useful small-signal complement to established large-signal transient simulation studies.",

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N2 - A step-by-step coordinated design procedure for power system stabilisers (PSSs) and automatic voltage regulators (AVRs) in a strongly coupled system is described in this paper. It is shown that it is possible to separate the design of individual PSSs and separate the design of individual AVRs. Thereby, the designs of AVR and PSS devices at a given machine can be coordinated to achieve near-optimal overall power system stability performance, including oscillation stability performance and transient stability performance. The proposed coordinated PSS/AVR design procedure is established within a frequency-domain framework and serves as a most useful small-signal complement to established large-signal transient simulation studies.

AB - A step-by-step coordinated design procedure for power system stabilisers (PSSs) and automatic voltage regulators (AVRs) in a strongly coupled system is described in this paper. It is shown that it is possible to separate the design of individual PSSs and separate the design of individual AVRs. Thereby, the designs of AVR and PSS devices at a given machine can be coordinated to achieve near-optimal overall power system stability performance, including oscillation stability performance and transient stability performance. The proposed coordinated PSS/AVR design procedure is established within a frequency-domain framework and serves as a most useful small-signal complement to established large-signal transient simulation studies.

KW - multimachine systems

KW - oscillation mode stabilization

KW - power system stabiliser (PSS)

KW - automatic voltage regulator (AVR)

KW - transient stability

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JO - IEEE Transactions on Power Systems

JF - IEEE Transactions on Power Systems

IS - 1

ER -

Enhanced power system stability by coordinated PSS design

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Enhanced power system stability by coordinated PSS design

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