This study presents a high-performance controller based on the Lyapunov stability criterion that enhances the dynamic performance and disturbance rejection capability of resonant DC/DC converters when compared with classical PI control. The series-parallel resonant converter (SPRC) is used as the candidate converter to which this controller design is applied but the design can be generalised to other types of resonant DC/DC converters. By using a multiple module approach, low-power modules of this resonant converter are stacked to enable operation at medium-voltage DC (MVDC). The proposed controller design is applied to modular structure of the SPRC to verify its high-performance output in conjunction with active sharing control loops that ensure uniform current/voltage distribution across the multiple interconnected modules. Detailed controller design, closed-loop stability criteria, robustness and parameter sensitivity are investigated and controller performance is compared and verified against the classical PI control in simulation and low-scaled experimental prototype. Operations in single-module and two-module input-series output-parallel modes are both studied. The study affirms the selection of the modular DC/DC converter architecture and its associated proposed controls for high-performance MVDC applications.
Lyapunov-based high-performance controller for modular resonant DC/DC converters for medium-voltage DC grids
2017-12-15
Aboushady , A A , Ahmed , K H , Finney , S J & Williams , B W 2017 , ' Lyapunov-based high-performance controller for modular resonant DC/DC converters for medium-voltage DC grids ' , IET Power Electronics , vol. 10 , no. 15 , pp. 2055-2064 . https://doi.org/10.1049/iet-pel.2017.0180
Article (Journal)
Electronic Resource
English
DDC: | 629 |
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