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Hamiltonian model of electromechanical actuator in natural reference frame.: Part II: Equations and simulations

Hamiltonian model of electromechanical actuator in natural reference frame.: Part II: Equations... Hamiltonian model of electromechanical actuator in natural reference frame.: Part II: Equations and simulations In the paper a novel mathematical model of electromechanical actuator is presented. It is based on application of Hamiltonian equations in the description of electro-mechanical energy conversion. It results in employment of flux linkages as state variables in the state space equations. For simplicity only a 3-phase wye connected stator winding without a neutral wire is considered in detail. The procedure can be generalised to any number of phases. Topology-based approach is used in the model implementation. Procedures for evaluation of all quantities (currents, energy/coenergy, electro-magnetic torque) present in model equations are described. Eddy currents and hysteresis phenolmenon are neglected in formulation of the model to enable application of state-space description. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Archives of Electrical Engineering de Gruyter

Hamiltonian model of electromechanical actuator in natural reference frame.: Part II: Equations and simulations

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Publisher
de Gruyter
Copyright
Copyright © 2011 by the
ISSN
0004-0746
DOI
10.2478/v10171-011-0029-0
Publisher site
See Article on Publisher Site

Abstract

Hamiltonian model of electromechanical actuator in natural reference frame.: Part II: Equations and simulations In the paper a novel mathematical model of electromechanical actuator is presented. It is based on application of Hamiltonian equations in the description of electro-mechanical energy conversion. It results in employment of flux linkages as state variables in the state space equations. For simplicity only a 3-phase wye connected stator winding without a neutral wire is considered in detail. The procedure can be generalised to any number of phases. Topology-based approach is used in the model implementation. Procedures for evaluation of all quantities (currents, energy/coenergy, electro-magnetic torque) present in model equations are described. Eddy currents and hysteresis phenolmenon are neglected in formulation of the model to enable application of state-space description.

Journal

Archives of Electrical Engineeringde Gruyter

Published: Sep 1, 2011

References