Browsing by Author "Poblete, Pablo"
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- ItemClosed-Loop Performance Improvement for MMCs Based on Optimal Reference Governor(2021) Poblete, Pablo; Neira, Sebastian; Cuzmar, Rodrigo; Aguilera, Ricardo P.; Mora, Andres; Pereda Torres, Javier
- ItemHybrid Sorting Strategy for Modular Multilevel Converters With Partially Integrated 2nd Life Battery Energy Storage Systems for fast EV charging(2022) Rubio, Francisco; Pereda Torres, Javier; Rojas, Felix; Poblete, Pablo
- ItemInter-Cluster Power Control of Modular Multilevel Converters with Integrated Battery Energy Storage for Electric Vehicle Low Voltage Operation(2022) Salvadores, Tomas; Pereda Torres, Javier; Poblete, Pablo
- ItemOptimal Switching Sequence Direct Power Control for AC/DC Converters with Enhanced Converter Model for Lower Switching Frequencies(2022) Poblete, Pablo; Syasegov, Yaroslav Y.; Farhangi, Majid; Aguilera, Ricardo P.; Siwakoti, Yam P.; Lu, Dylan; Pereda Torres, Javier
- ItemSequential Phase-Shifted Model Predictive Control for a Multilevel Converter with Integrated Battery Energy Storage(2020) Neira, Sebastián; Poblete, Pablo; Cuzmar Leiva, Rodrigo Hernán; Pereda Torres, Javier Eduardo
- ItemSequential Phase-Shifted Model Predictive Control for a Multilevel Converter with Integrated Battery Energy Storage(2020) Neira, Sebastián; Poblete, Pablo; Cuzmar Leiva, Rodrigo Hernán; Pereda Torres, Javier Eduardo; Aguilera, Ricardo P.Cascaded converters have risen as a suitable solution for the connection of Utility-scale Battery Energy Storage Systems (BESS) to the grid. These converters allow to split the battery array into the power modules, reducing the total series-connected battery cells and improving the reliability of the system. Different types of modules have been proposed to integrate the batteries in the converter. The three-port full-bridge module connects the batteries through a second deport decoupled from the harmful low-frequency oscillations and current peaks. However, the multi-variable controller required to manage the power interaction between the battery and the grid presents a challenge in terms of computational burden and scalability. This work proposes the use of the Sequential Phase-Shifted Model Predictive Control (PS-MPC) in a multilevel BESS implementation using three-port full-bridge modules. The proposed controller outperforms a standard FCS-MPC, as it obtains the optimal duty cycles for the operation of the converter with the same fast dynamic response, but also with the fixed spectrum of the PS-PWM and low computational burden, which facilitates its scalability to multilevel BESS with a large number of cells. Simulation results show the ability of the system to exchange different amounts of power with the grid, ensuring the best battery operational conditions