Abstract
A new sliding-mode-control-based power conversion scheme is proposed for photovoltaic energy conversion systems. The perturbation and observation (P&O) maximum power-point tracking (MPPT) approach is adopted for optimizing the power generation capabilities from solar panels. Due to the inherent nonlinear dynamics of power converters, we need to adopt a nonlinear control approach to optimize the energy conversion efficiency and tolerate the fluctuations and changes of load and sunlight irradiance. In this manuscript, novel first-and higher-order sliding mode control approaches are proposed, aiming to provide a systematic approach for the robust and optimal control of solar energy conversion, which guarantees Lyapunov stability and consistent performance in the face of external perturbations and disturbances. Moreover, to eliminate the chattering phenomenon inherent in the first-order approach, super-twisting second-order sliding mode control is developed for the buck-boost converter. Furthermore, the output of DC–DC converter supplies a voltage-oriented-control (VOC)-based space-vector pulse-width-modulated inverter to generate three-phase AC power to the grid. To demonstrate the robustness and effectiveness of the proposed scheme, computer simulations and dSPACE hardware-in-the-loop platform have been carried on for examining the proposed sliding-mode-control-based solar energy conversion system.
Highlights
IntroductionPhotovoltaic (PV) power, is one of the most promising renewable energy resources of the 21st century
Published: 24 September 2021Solar power generation, photovoltaic (PV) power, is one of the most promising renewable energy resources of the 21st century
The output of DC–DC converter is further connected to a voltage-oriented control (VOC) based space-vector pulse-width-modulated high-power inverter, which supplies three-phase power to the micro-grid or isolated three-phase AC
Summary
Photovoltaic (PV) power, is one of the most promising renewable energy resources of the 21st century. Flexible, distributed power generation with high penetration in PV panels requires a robust DC–DC converter control scheme to minimize output voltage variations and achieve a stable DC voltage level. Among various nonlinear control methods, the slidingmode control method has been one of the most widely used nonlinear control techniques for powering electronic devices [6] It is well-known that the chattering phenomenon is the major drawback of the first-order sliding mode method. The novel first- and higher-order sliding mode control systems are developed for the buck-boost converter to optimize power conversion performance. The output of DC–DC converter is further connected to a voltage-oriented control (VOC) based space-vector pulse-width-modulated high-power inverter, which supplies three-phase power to the micro-grid or isolated three-phase AC loads [9,10]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
