This paper addresses the decoupling control design for the cascaded power electronic transformer (PET) in input-series-output-parallel connection. Due to the coupling and interaction between the sub-modules and between sub-stages, in essence it is a complex nonlinear system. A nonlinear control strategy based on feedback exact linearization (FEL) is developed to decouple all the control objectives so as to realize the dc-link and output voltages fast stabilizing and the submodule balancing without coupling and interactions. Based on the separation of the ac current time-scale and dc voltage time-scale, the FEL control law is derived, and the specific tuning process of control parameters are given for desired control bandwidths. Taken the dynamic influences of the current-loop, filter, and delay into account, further analyses are made and compared with a DAB balancing control-based strategy to show the improvement on decoupling effect and dynamic performance of the proposed control. Finally, the simulation and experimental results verify the theoretical analysis, which exhibit better dynamic features and minimal coupling effect under the condition of bidirectional power changes and parameter inconsistency and uncertainty.
Decoupling Control of Cascaded Power Electronic Transformer based on Feedback Exact Linearization
2022-01-01
Sun , Y , Zhu , J , Fu , C & Chen , Z 2022 , ' Decoupling Control of Cascaded Power Electronic Transformer based on Feedback Exact Linearization ' , IEEE Journal of Emerging and Selected Topics in Power Electronics , vol. 10 , no. 4 , 9388673 , pp. 3662-3676 . https://doi.org/10.1109/JESTPE.2021.3069208
Article (Journal)
Electronic Resource
English
DDC: | 629 |
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