Abstract
Photovoltaic systems have a nonlinear characteristic in which there is one optimum operating point called Maximum Power Point (MPP). However, when PV panels are partially shaded by surrounding objects, there are several MPPs, of which one of them is Global MPP (GMPP). Therefore, conventional Maximum Power Point Tracking (MPPT) algorithms get trapped into local MPPs. As a result, a multitude of Global MPPT (GMPPT) algorithms have been proposed. An outstanding GMPPT algorithm as well as the fast-tracking speed should find GMPP in complicated shading patterns where not only there are lots of MPPs, but also the peaks are close together. Therefore, in this paper, a novel GMPPT based on firework algorithm is proposed which is able to find GMPP in complicated shading patterns with fast tracking speed. Moreover, the firework is combined with Perturb-and-Observe (P&O) algorithm to reduce the computational effort in a way that the firework is only used to recognize GMPP; afterwards, P&O algorithm completes the tracking. Furthermore, the variable sampling time technique, based on the system settling time, speeds up the tracking process considerably. Finally, the proposed method is compared with previous works, simulated, and implemented on an experimental setup to prove its superiority.
Highlights
Renewable energy is an attractive alternative to fossil fuels because of its environmentally friendly manner
An experimental laboratory setup was built to verify the theoretical analysis of the proposed algorithm. e algorithm is implemented on Texas Instruments TMS320F2812 Digital Signal Processing (DSP) platform
60 18.5 3.25 22.9 3.44 produce 60 kHz Pulse Width Modulation (PWM) signal, and it is passed through the optocoupler HCPL 3120 to isolate DSP from the boost converter
Summary
Renewable energy is an attractive alternative to fossil fuels because of its environmentally friendly manner. When PV panels are partially shaded, instead of an MPP, there are multiple MPPs. erefore, conventional Maximum Power Point Tracking (MPPT) algorithms such as Incremental conductance (INC), Perturb and Observe (P&O), and Ripple Current Control (RCC) [2,3,4,5,6] get trapped into local MPPs when Partial Shading condition (PSC) occurs. These methods are effective in uniform irradiance. The fuzzy logic and ANN are fused together to increase the robustness of GMPPT in different configurations of PV panels [9]
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