Abstract
In conventional adaptive variable step size (VSS) maximum power point tracking (MPPT) algorithms, a scaling factor is utilized to determine the required perturbation step. However, the performance of the adaptive VSS MPPT algorithm is essentially decided by the choice of scaling factor. In this paper, a neural network assisted variable step size (VSS) incremental conductance (IncCond) MPPT method is proposed. The proposed method utilizes a neural network to obtain an optimal scaling factor that should be used in current irradiance level for the VSS IncCond MPPT method. Only two operating points on the characteristic curve are needed to acquire the optimal scaling factor. Hence, expensive irradiance and temperature sensors are not required. By adopting a proper scaling factor, the performance of the conventional VSS IncCond method can be improved, especially under rapid varying irradiance conditions. To validate the studied algorithm, a 400 W prototyping circuit is built and experiments are carried out accordingly. Comparing with perturb and observe (P&O), α-P&O, golden section and conventional VSS IncCond MPPT methods, the proposed method can improve the tracking loss by 95.58%, 42.51%, 93.66%, and 66.14% under EN50530 testing condition, respectively.
Highlights
Academic Editor: Gianpaolo VitaleSolar power generation (SPG) has become one of the most valuable green energy sources due to its advantages of cleanliness, safety, non-pollution, inexhaustibility, and no need for rotating components in the process of assembly and operation
A neural network assisted variable step size (VSS) incremental conductance method (IncCond) maximum power point tracking (MPPT) method with adaptive scaling factor for rapidly irradiance changing conditions is proposed in this study
Using any two operating points on the characteristic curves, an optimal scaling factor cam be acquired using the proposed neural network to enhance the performance of conventional VSS IncCond
Summary
Solar power generation (SPG) has become one of the most valuable green energy sources due to its advantages of cleanliness, safety, non-pollution, inexhaustibility, and no need for rotating components in the process of assembly and operation. In order to solve this problem, researchers have proposed many new MPPT algorithms that can be applied in fast varying solar irradiance conditions and that have rapid tracking speeds and low steady-state oscillation [6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27] These methods can be divided into three. The proposed method utilizes a neural network to obtain an optimal scaling factor according to current irradiance level using the measured voltage and current value of two consecutive perturbation points as the ANN’s input. To conclude from its overall performance, the proposed method has great performance in different operating conditions
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