Methodology development for estimation of armature circuit and field winding parameters of large utility generators

H.B. Karayaka, A. Keyhani, B. Agrawal, D. Selin, G.T. Heydt
Dept. of Electr. Eng., Ohio State Univ., Columbus, OH, USA;

This paper appears in: IEEE Transactions on Energy Conversion
Publication Date: Dec. 1999
On page(s): 901 - 908
Volume: 14, Issue: 4
ISSN: 0885-8969
Reference Cited: 13
CODEN: ITCNE4
Inspec Accession Number: 6465026

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Abstract:
This paper presents a methodology to estimate armature circuit and field winding parameters of large utility generators using the synthetic data obtained by the machine natural abc frame of reference simulation. First, a one-machine infinite bus system including the machine and its excitation system is simulated in abc frame of reference by using parameters provided by the machine manufacturer. A proper data set required for estimation is collected by perturbing the field side of the machine in small amounts, The recursive maximum likelihood (RML) estimation technique is employed for the identification of armature circuit parameters. Subsequently, based on the estimates of armature circuit parameters, the field winding and some damper parameters are estimated using an output error estimation (OEM) technique. For each estimation case, the estimation performance is also validated with noise corrupted measurements. Even in case of remarkable noise corruption, the agreement between estimated and actual parameters is quite satisfactory