Photovoltaics are becoming very popular, because the system does not produce pollution and can be installed anywhere, including in remote areas. However, in the use of photovoltaic found some common problems, it is difficult to get maximum and stable power. Therefore, to overcome these problems using Maximum Power Point Tracking method. On a photovoltaic system it is necessary to determine which converter will be used to increase the power output of the photovoltaic. The design of MPPT using gray wolf optimization algorithm that can track the output power quickly and reduce the oscillation in photovoltaic system. The result of the maximum power tracker using the gray wolf optimization algorithm is better than the incremental conductance algorithm of up to 0,4 s. Converters are used using soft - switching buck converter method to overcome the power losses that often arise in PV systems. The result of power output using soft-switching buck converter is greater than using buck converter. When comparing the efficiency of photovoltaic systems using the gray wolf optimization algorithm increases from using the incremental conductance algorithm.
CITATION STYLE
Suhardi, D., Syafaah, L., Irfan, M., Yusuf, M., Effendy, M., & Pakaya, I. (2019). Improvement of maximum power point tracking (MPPT) efficiency using grey Wolf optimization (GWO) algorithm in photovoltaic (PV) system. In IOP Conference Series: Materials Science and Engineering (Vol. 674). Institute of Physics Publishing. https://doi.org/10.1088/1757-899X/674/1/012038
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