Asymptotic Functional Reproducibility and Control of Interconnected Power System
For a class of multivariable non-linear systems, a sufficient condition for the existence of control to generate output which asymptotically tends to a given real analytic vector function is derived. A prefilter (right inverse) is constructed to generate the required control. Based on this result, a control to steer the alert state of an interconnected power system to a secure state is derived. The steering of the state is achieved by controlling the turbine outputs and the field voltages. The controlled rotor angles and generator voltages follow damped sinusoidal and damped polynomial waveforms. The power system attains the desired equilibrium angles of the rotors and deviations in the frequency, tie-line power flows and generator voltages tend to zero as t→∞. Simulation results are presented for a simple power system.
Controls and Control Theory | Electrical and Computer Engineering | Electrical and Electronics | Electronic Devices and Semiconductor Manufacturing | Power and Energy | Signal Processing | Systems and Communications
Use Find in Your Library, contact the author, or use interlibrary loan to garner a copy of the article. Publisher copyright policy allows author to archive post-print (author’s final manuscript). When post-print is available or publisher policy changes, the article will be deposited
Araujo, A. D.,
Singh, S. N.
Asymptotic Functional Reproducibility and Control of Interconnected Power System.
International Journal of Systems Science, 14(1),