A Port-Hamiltonian Approach to Control DC-DC Power Converters

David NAVARRO¹*, Domingo CORTES², Martha GALAZ-LARIOS^3
1,2,3 Instituto Politécnico Nacional, ESIME
Av. Santa Ana N° 1000, 04430, Ciudad de México
{david.navarro.d¹, domingo.cortes², martha.galaz³}@gmail.com
*Corresponding author

ABSTRACT: Port-Hamiltonian system is a modeling and control methodology developed in recent decades. It is focused on energy transfer among different parts of a system and between systems. Power converters on the other hand are devices that process the electrical energy at its input to deliver energy with the required characteristic at its output. Hence, a Port-Hamiltonian model is especially attractive for control of power converters. Based on previous published results, in this paper, a Port-Hamiltonian approach is proposed for the control of DC-DC power converters. A particular characteristic of the controller here proposed is that a time variable inductor current is employed. As a result a faster and lower overshoot closed loop response is obtained for both the start-up condition and the load disturbance.

KEYWORDS: Port-Hamiltonian, energy, power, power electronics, power converters, energy shaping.

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CITE THIS PAPER AS:
David NAVARRO^*, Domingo CORTES, Martha GALAZ-LARIOS, A Port-Hamiltonian Approach to Control DC-DC Power Converters, Studies in Informatics and Control, ISSN 1220-1766, vol. 26(3), pp. 269-276, 2017. https://doi.org/10.24846/v26i3y201702