Sliding Mode Regulation of a Boost Circuit for DC-Biased Sinusoidal Power Conversion

Jorge Rivera; Susana Ortega-Cisneros; Rosas-caro, Julio; Omar-Fernando Ruíz-Martínez

doi:10.3390/app13105963

Sliding Mode Regulation of a Boost Circuit for DC-Biased Sinusoidal Power Conversion

Journal

Applied Sciences

ISSN

2076-3417

Date Issued

2023

Author(s)

Jorge Rivera

Susana Ortega-Cisneros

Rosas-caro, Julio

Facultad de Ingeniería - CampGDL

Omar-Fernando Ruíz-Martínez

Facultad de Ingeniería - CampAGS

Type

text::journal::journal article

DOI

10.3390/app13105963

URL

https://scripta.up.edu.mx/handle/20.500.12552/3609

Abstract

The boost converter is mostly used as a DC–DC converter, but two boost converter power stages can be configured to perform the DC–AC conversion. In this case, the control system of the power stage must be designed for trajectory tracking (instead of regulation), which brings interesting challenges. This work deals with the design of a higher-order sliding mode output regulator for a DC-biased sinusoidal power conversion problem on a single boost converter stage of a boost inverter for asymptotic trajectory tracking of the voltage capacitor. The steady-state reference signal for the inductor current is proposed as an approximated solution of the well-known Francis–Isidori–Byrnes equations. The used approach is the direct control of the output, where the nonminimum phase variable, i.e., an adequate sliding function, stabilizes the current through the inductor. Lastly, by means of real-time experimentation, the good performance of the proposed control strategy is verified.