Power converters have a wide range of ap plications in energy storage units for e-mobility. In this paper, a dual-loop sliding mode control algorithm is proposed for output voltage regulation and current control of single inductor four switches (SIFoS) non-inverting DC-DC buck boost converter. The converter and controller are studied as an application for a 48 V battery pack. The average state-Space mathematical model of the system is derived and used for nonlinear controller design. Lyapunov stability theory is used to verify the stability of closed-loop controller. The proposed dual-loop controller is tested using simscape electrical in MATLAB/Simulink. Typhoon hardware in the loop (HIL) test is carried out to ensure the controller performance in real-time using HIL 404 device. Moreover, a comparative analysis with the state-of-the-art PI is also presented.
Rahman, A.U., Campagna, N., Di Tommaso, A.O., Miceli, R., Damiano, A., Floris, A. (2023). Advanced Control Analysis of Single Inductor Four Switch Non-Inverting Buck-Boost Converter for Energy Storage Units. In 2023 International Conference on Clean Electrical Power, ICCEP 2023 (pp. 267-272). Institute of Electrical and Electronics Engineers Inc. [10.1109/iccep57914.2023.10247454].
Advanced Control Analysis of Single Inductor Four Switch Non-Inverting Buck-Boost Converter for Energy Storage Units
Campagna, N.;Di Tommaso, A. O.;Miceli, R.;
2023-01-01
Abstract
Power converters have a wide range of ap plications in energy storage units for e-mobility. In this paper, a dual-loop sliding mode control algorithm is proposed for output voltage regulation and current control of single inductor four switches (SIFoS) non-inverting DC-DC buck boost converter. The converter and controller are studied as an application for a 48 V battery pack. The average state-Space mathematical model of the system is derived and used for nonlinear controller design. Lyapunov stability theory is used to verify the stability of closed-loop controller. The proposed dual-loop controller is tested using simscape electrical in MATLAB/Simulink. Typhoon hardware in the loop (HIL) test is carried out to ensure the controller performance in real-time using HIL 404 device. Moreover, a comparative analysis with the state-of-the-art PI is also presented.
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