Voltage Regulation in Buck–Boost Converters Feeding an Unknown Constant Power Load: An Adaptive Passivity-Based Control

Abstract

Rapid developments in power distribution systems and renewable energy have widened the applications of dc-dc buck-boost converters in dc voltage regulation. Applications include vehicular power systems, renewable energy sources that generate power at a low voltage, and dc microgrids. It is noted that the cascade connection of converters in these applications may cause instability due to the fact that converters acting as loads have a constant power load (CPL) behavior. In this brief, the output voltage regulation problem of a buck-boost converter feeding a CPL is addressed. The construction of the feedback controller is based on the interconnection and damping assignment control technique. In addition, an immersion and invariance parameter estimator is proposed to compute online the extracted load power, which is difficult to measure in practical applications. It is ensured through the design that the desired operating point is (locally) asymptotically stable with a guaranteed domain of attraction. The approach is validated via computer simulations and experimental prototyping.