Pole Identification for The Universal Line Model Based on Trace Fitting

Author

Gustavsen, Bjørn ; Nordstrom, John

Author_Institution

SINTEF Energy Res., Trondheim

Volume

23

Issue

1

fYear

2008

Firstpage

472

Lastpage

479

Abstract

The universal line model (ULM) is a frequency dependent transmission-line model based on the method of characteristics in the phase domain. Although the ULM is known to produce highly accurate models for both overhead lines and underground cables, situations have been encountered where the pole identification for the propagation function fails. In this paper, we overcome the problem by basing the pole identification on trace fitting rather than mode fitting. This is achieved by introducing delayed basis functions in the vector fitting algorithm, followed by time-delay refinement and model-order reduction. In situations where the modes can be fitted without difficulty, the existing approach using modes obtained by a frequency-dependent transformation matrix remains the most accurate.

Keywords

curve fitting; delays; matrix algebra; poles and towers; power overhead lines; underground cables; delayed basis functions; frequency dependent transmission-line; frequency-dependent transformation matrix; model-order reduction; overhead lines; pole identification; propagation function; time-delay refinement; trace fitting; underground cables; universal power transmission line model; vector fitting algorithm; Admittance; Cables; Councils; Delay effects; Electromagnetic modeling; Electromagnetic transients; Frequency dependence; Helium; Transmission line matrix methods; Transmission lines; Electromagnetic transients; frequency dependency; transmission-line model; universal line model (ULM); vector fitting;

fLanguage

English

Journal_Title

Power Delivery, IEEE Transactions on

Publisher

ieee

ISSN

0885-8977

Type

jour

DOI

10.1109/TPWRD.2007.911186

Filename

4408686