A Feedback Linearization Scheme for the Control of Synchronous Generators

This article proposes an advanced non-linear control algorithm to manage active power and voltage provided by a synchronous generator. The algorithm is based on the so-called feedback linearization theory, which relies on the central concept to algebraically transform non-linear systems dynamics int...

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Veröffentlicht in:Electric Power Components and Systems Jg. 40; H. 16; S. 1842 - 1869
Hauptverfasser: Bonfiglio, Andrea, Delfino, Federico, Invernizzi, Marco, Perfumo, Adriano, Procopio, Renato
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Philadelphia Taylor & Francis 09.12.2012
Informa UK Limited
Taylor & Francis Ltd
Schlagworte:
Active control
Algorithms
Control algorithms
Control theory
Dynamic stability
Electric potential
Electric power
Feedback control systems
Feedback linearization
Nonlinear control
Nonlinear dynamics
Nonlinear systems
Reference signals
Simulation
synchronous generators
Synchronous machines
Voltage
voltage and power control
ISSN:1532-5008, 1532-5016
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Zusammenfassung:This article proposes an advanced non-linear control algorithm to manage active power and voltage provided by a synchronous generator. The algorithm is based on the so-called feedback linearization theory, which relies on the central concept to algebraically transform non-linear systems dynamics into fully or partly linear ones, so that linear control techniques can be applied. Starting from the basic (electrical, magnetic, and mechanical) machine equations, a suitable state transformation is introduced in order to apply the feedback linearization block to the generator model. A regulation scheme is then derived, which receives as inputs the measure and reference signals of both the electric power and the voltage at the generator side and produces as outputs the physical inputs of the machine, i.e., the mechanical torque and the field voltage. Particular attention is devoted to both the linearization process, where internal dynamics and stability studies play an important role, and to the design of the two (power and voltage) decoupled regulators. Several simulations are finally performed in order to verify the effectiveness of the proposed approach and to highlight its main advantages and drawbacks with respect to the traditional P-V synchronous generator control strategy.
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ISSN:1532-5008
1532-5016
DOI:10.1080/15325008.2012.722581