2013
DOI: 10.1177/0959651813511614
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Coordinated control of static synchronous compensator and automatic voltage regulator in multi-machine power systems using pseudo-generalized Hamiltonian theory

Abstract: Flexible alternating current transmission system devices are widely used to enhance the power transfer limit and stability improvement in transmission networks. They also help damp out both local and inter-area low-frequency oscillations. Using pseudo-generalized Hamiltonian theory, this article investigates the coordinated control of automatic voltage regulator of synchronous generator and static synchronous compensator in multi-machine power systems. First, via a proper variable transformation and pre-feedba… Show more

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Cited by 11 publications
(8 citation statements)
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“…Remark To the best of our knowledge, the chattering properties and discontinuity of the FT controllers are common phenomena. As Lei et al pointed out, although the feedback linearization control method is nonlinear and, therefore, relatively independent of operating conditions, nonlinear systems to which linear feedback is applied often suffer from degradation of performance when the operating point is far from the point about which the system was originally linearized . As has been mentioned, the greatest advantage of the Hamilton function method is that it can effectively use the internal structural characteristics during the controller design .…”
Section: Global Continuous Robust Finite‐time Control Design For Upfcmentioning
confidence: 99%
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“…Remark To the best of our knowledge, the chattering properties and discontinuity of the FT controllers are common phenomena. As Lei et al pointed out, although the feedback linearization control method is nonlinear and, therefore, relatively independent of operating conditions, nonlinear systems to which linear feedback is applied often suffer from degradation of performance when the operating point is far from the point about which the system was originally linearized . As has been mentioned, the greatest advantage of the Hamilton function method is that it can effectively use the internal structural characteristics during the controller design .…”
Section: Global Continuous Robust Finite‐time Control Design For Upfcmentioning
confidence: 99%
“…25,27 As has been mentioned, the greatest advantage of the Hamilton function method is that it can effectively use the internal structural characteristics during the controller design. 10,25,27 Using the Hamiltonian function method and the "energy shaping plus damping injection" technique, by taking full advantage of the internal structural characteristics of original model, a chattering-free GCRFTC of UPFC is designed to solve the problems of reference tracking, robustness against uncertainties, and external disturbances and improve transient stability and damping of power system. Therefore, the chattering phenomena and high-order frequencies for the FT control problem are effectively avoided.…”
Section: Global Continuous Robust Finite-time Control Design For Upfcmentioning
confidence: 99%
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