Model Predictive Control for DC-DC Boost Converters With Reduced-Prediction Horizon and Constant Switching Frequency

Cheng, Long; Acuna, Pablo; Aguilera, Ricardo P.; Jiang, Jiuchun; Wei, Shaoyuan; Fletcher, John E.; Lu, Dylan D. C.

Abstract

The implementation of multistep direct model predictive control (MPC) for dc-dc boost converters overcomes the well-known issue of nonminimum phase behavior. However, it can lead to a high computational burden depending on the prediction horizon length. In this paper, a simple and computationally efficient MPC method for dc-dc boost converters is proposed. The key novelty of the presented control strategy lies in the way dynamic references are handled. The control strategy is capable of providing suitable references for the inductor current and the output voltage, without requiring additional control loops. Moreover, this reference design allows the predictive controller to be implemented with a single-step prediction horizon. Thus, a significant reduction in the required real-time calculations executed in the control hardware is achieved. To obtain constant switching frequency, the power switch commutation instants within a sampling period are considered as control inputs. Therefore, the predictive controller is formulated as a continuous control set MPC. Additionally, the proposed formulation is able to deal with different operation modes of the converter without changing the controller structure. Finally, an observer is used to dynamically modify the reference to provide robustness to system parameter uncertainties. Simulation and experimental results show an accurate tracking of dynamic inductor current and output voltage references, while respecting the restrictions on maximum inductor current levels of the converter.

Más información

Título según WOS: ID WOS:000439388500075 Not found in local WOS DB
Título de la Revista: IEEE TRANSACTIONS ON POWER ELECTRONICS
Volumen: 33
Número: 10
Editorial: IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
Fecha de publicación: 2018
Página de inicio: 9064
Página final: 9075
DOI:

10.1109/TPEL.2017.2785255

Notas: ISI