Luís Felipe Boeff1, Jeferson Vieira Flores2, Joao Manoel Gomes Da Silva Jr1
10:40 - 11:00 | Wed 10 Jul | Room 409 | WeA18.3
This work presents the design of state-feedback robust control laws for boost power converters. First, an equivalent circuit of the boost converter is presented and a nonlinear(bilinear) state-space representation is obtained. The system is linearized around an equilibrium point, such that linear robust control techniques can be applied. An integral action is added to the linearized system, such that step-like disturbances can be rejected in closed-loop. A saturation restriction on the control signal is then imposed to limit the operation of the system in a region where the linear model approximation is valid. In order to improve the closed-loop performance, an Hinf control design with pole placement restrictions based on linear matrix inequalities is considered. Finally, a static antiwindup compensator is designed to reduce possible integral windup effects imposed by the saturation. The resulting control system is validated by PSIM simulation software, where high frequency switching and other unmodeled effects neglected in the modeling stage are considered.