Title :
Simplified Averaged Models of DC–DC Power Converters Suitable for Controller Design and Microgrid Simulation
Author :
Pavlović, Tomislav ; Bjazic, T. ; Ban, Źeljko
Author_Institution :
Dept. of Control & Comput. Eng., Univ. of Zagreb, Zagreb, Croatia
Abstract :
This paper presents simplified nonlinear averaged large-signal and linear small-signal models of the three basic dc-dc converter topologies, boost, buck, and noninverting buck-boost, respectively, operating in peak current-mode control. Models have been derived for the continuous and discontinuous conduction mode. The modeling methodology used is the equivalent current injected method. The derived models have been compared to the existing full-order large-signal nonlinear models and have been found to exhibit simulation time reduction by a few magnitudes in complex distributed power systems, such as today´s popular microgrids. The models developed have been experimentally verified on a custom-built 120-W boost converter prototype, showing great accuracy in steady state and in dynamical behavior in all operating points, as determined by the output resistance.
Keywords :
DC-DC power convertors; control system synthesis; distributed power generation; electric current control; power distribution control; power system simulation; DC-DC power converter; complex distributed power system; continuous conduction mode; controller design; custom-built boost converter prototype; discontinuous conduction mode; equivalent current injected method; full-order large-signal nonlinear model; microgrid simulation; noninverting buck-boost converter; peak current-mode control; power 120 W; simplified linear small-signal model; simplified nonlinear averaged large-signal model; Equations; Inductors; Integrated circuit modeling; Mathematical model; Switches; Topology; Averaged model; dc–dc converter; large-signal nonlinear model; microgrid; peak current-mode control;
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2012.2224889
