IDENTIFICATION OF SYNCHRONOUS GENERATOR AND EXCITATION SYSTEM TRANSFER FUNCTIONS FOR Q-V CONTROL PURPOSE
Authors/Creators
- 1. Electrical Engineering Institute "Nikola Tesla", University of Belgrade, Belgrade, Serbia
- 2. University of Belgrade, School of Elctrical Engineeringd Metallurgy, Belgrade, Serbia
- 3. Thermal Power Plants Nikola Tesla" Ltd, Obrenovac, Serbia
Description
The paper presents the new, enhanced way of the use of Prony analysis, combined with Padé approximation, for the transfer functions identification of generating units involved into coordinated Q-V control. Transfer functions of interests are related to automatic voltage regulator (AVR) and excitation system. In the presented analysis the influence of field voltage recorded signal corruption with noise is successfully overcame. By the use of standard first order synchronous generator model, it is possible to extract exact generator model parameters, using Padé approximation. After that step, the transfer function of automatic voltage regulator (AVR) is derived using similar technique. Finally, derived generator and AVR transfer functions are verified by MATLAB/Simulink simulation and compared with results obtained by other identification techniques.
Files
E2014-146.pdf
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Additional details
Funding
- Ministry of Education, Science and Technological Development
- Energy efficiency Improvement of Hydro and Thermal power plants in EPS by development and implementation of power electronics based regulation and automation equipment 33020