TY - EJOU AU - Chen, Wan AU - Liu, Zhi AU - Ma, Yingxue AU - Wang, Cuicui AU - Gu, Xinfa AU - Liu, Baolian AU - Shen, Lei AU - Huang, Hui AU - Ji, e TI - Hardware-Algorithm Co-Design: SiC Bidirectional Converters with MPC-Fuzzy Logic Control for Robust Operation of Solar-Powered EV Hubs T2 - Energy Engineering PY - 2026 VL - 123 IS - 3 SN - 1546-0118 AB - In order to solve the problems of slow dynamic response and difficult multi-source coordination of solar electric vehicle charging stations under intermittent renewable energy, this paper proposes a hardware-algorithm co-design framework: the T-type three-level bidirectional converter (100 kHz switching frequency) based on silicon carbide (SiC) MOSFET is deeply integrated with fuzzy model predictive control (Fuzzy-MPC). At the hardware level, the switching trajectory and resonance suppression circuit (attenuation resonance peak 18 dB) are optimized, and the total loss is reduced by 23% compared with the traditional silicon-based IGBT. At the algorithm level, the adaptive parameter update mechanism and multi-objective rolling optimization are adopted, and the 5 ms level dynamic power allocation is realized by relying on edge computing. Experiments on 800 V DC microgrid (including 600 kW photovoltaic and 150 A·h energy storage) built based on MATLAB/Simulink hardware-in-the-loop (HIL) platform show that the system shortens the battery charging time from 42 to 28 min (the charging speed is increased by 33%). Through the 78% valley power utilization rate, the power purchase cost of high-priced power grids was significantly reduced, and the levelized electricity price decreased by 10.3%; Under the irradiation fluctuation, the renewable energy consumption rate increases by 10.1%, and the DC bus voltage fluctuation is stable within ±10 V when the load step is ±30%. The co-design provides an economically feasible and dynamically robust solution for the efficient integration of PV-ESG-EV in the smart grid. KW - Power electronics co-design; fuzzy-MPC control; T-type three-level converter; grid-adaptive operation; PV-storage-charging integration; switching loss compensation DO - 10.32604/ee.2025.069764