Abstract
The problem of extracting maximum power from a photovoltaic (PV) system with negligible power loss is concerned with the power generating capability of the PV array and nature of the output load. Changing weather conditions and nonlinear behavior of PV systems pose a challenge in tracking of varying maximum power point. A robust nonlinear controller is required to ensure maximum power point tracking (MPPT) by handling nonlinearities of a system and making it robust against changing environmental conditions. Sliding mode controller is robust against disturbances, model uncertainties and parametric variations. It depicts undesirable phenomenon like chattering, inherent in it causing power and heat losses. In this paper, a supertwisting sliding mode algorithm based nonlinear robust controller has been designed for MPPT of a PV system which not only removes the chattering but also enhances the overall system’s dynamic response. Moreover, supertwisting sliding mode controller is robust against changing environmental conditions like change in temperature and irradiance. Noninverting DC-DC Buck-Boost converter has been used as an interface between source and the load. The efficiency of MPPT of a PV system depends upon the accuracy of reference for peak power voltage, therefore an efficient mechanism for reference generation has also been proposed in this work. The reference for peak power voltage has been generated by using a trained artificial neural network, which is to be tracked by proposed nonlinear controllers. Sliding mode controller (SMC) and synergetic controllers have also been designed for MPPT of a PV system in order to compare them with supertwisting sliding mode controller (ST-SMC). Global asymptotic stability of the system has been ensured by using Lyapunov stability criterion. The performance of the proposed nonlinear controllers has been validated in MATLAB/Simulink ODE 45 environment. ST-SMC has also been compared with recently proposed integral backstepping controller and other conventional MPPT controllers given in the literature. The simulation results show the better performance of ST-SMC in terms of best dynamic response and robustness.
Highlights
Solar energy is a limitless and clean source of power generation available nowadays
Nonlinear controller works by first generating the reference voltage Vref which is to be tracked by the controller in order to achieve the MPP
The values of these components are selected which operate the converter in Conduction Mode (CCM)
Summary
Solar energy is a limitless and clean source of power generation available nowadays. Due to continuous depletion and dangerous environmental effects of conventional energy sources [1], the demand of renewable energy sources especially the solar energy is increasing day by day which can be harvested by the use of solar panels. One major issue with solar panels is their efficiency which is dependent directly on the operating point of the solar cell. The changing current varies the power extracted from the PV module as shown by the I–V characteristic curves in Figures 3 and 4. This shows the variation of efficiency and renders the direct connection of load with the PV module. To overcome this problem a DC-DC converter is used as an interface between the PV array and load. The duty cycle of converter is varied in such a manner so as to extract the maximum current required for maximum power extraction by operating the module at maximum power point voltage [2]
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