An Adaptive–Predictive control scheme with dynamic Hysteresis Modulation applied to a DC–DC buck converter

This article proposes a recent Adaptive–Predictive (AP) control technique applied to a DC–DC buck converter. This converter topology has a wide range of applications in the current electronic and electrical systems that demand an efficient use of low bus voltage and specific requirements in load cur...

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Bibliographic Details
Published in:ISA transactions 2020-10, Vol.105, p.240-255
Main Authors: de León Puig, Nubia Ilia Ponce, Bozalakov, Dimitar, Acho, Leonardo, Vandevelde, Lieven, Rodellar, José
Format: Article
Language:English
Subjects:
Adaptive–predictive control
DC–DC buck converter
Hysteresis modulation
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Summary:This article proposes a recent Adaptive–Predictive (AP) control technique applied to a DC–DC buck converter. This converter topology has a wide range of applications in the current electronic and electrical systems that demand an efficient use of low bus voltage and specific requirements in load current consumption. Nevertheless, this converter, and in general any DC–DC converter topology, presents a control challenge due to its nonlinear nature. Hence, in this article, it is proposed an adaptive–predictive control scheme that has low implementation complexity and improves the buck converter performance since it provides a fast response of the output voltage. Moreover, the output is adequately regulated even when the system is subjected to perturbations in the reference voltage, in the input voltage, in the load or in the converter parameters that may be seen as faults in the system. On the other hand, one of the main contributions of the proposed control technique with respect to other controllers is that the AP control scheme allows to on-line infer the parametric status of the plant thanks to its adaptive stage. In addition, a dynamic Hysteresis Modulator (HM) is properly inserted in the control strategy to improve the dynamic behavior of the Adaptive Mechanism (AM), and in general, of the entire closed-loop control performance. To validate the effectiveness of the control design, a wide range of numerical experiments are carried out by using Matlab/Simulink. Finally, the developed control technique was implemented in a benchmark experimental platform. According to the experimental results, the proposed predictive control is suitable for real scenarios in the power electronics applications. •A simple adaptive–predictive control scheme for a DC–DC buck converter is proposed.•A hysteresis modulation is introduced to enrich the closed-loop control performance.•The control scheme is robust to modeling errors due to an on-line parameter estimation.•It is suited to control complex nonlinear electronic devices in renewable energy field.•Simulations and experiments in a setup verify the robustness in real cases.
ISSN:0019-0578
1879-2022
DOI:10.1016/j.isatra.2020.05.015