Result: Photovoltaic single diode model parameter extraction by dI/dV-assisted deterministic method.

• A high-accuracy and low-cost method for PV model parameter extraction is proposed. • The best model accuracy has been obtained in two most commonly-used case studies. • The method is applicable to incomplete or noisy I-V data. • The robustness of the method is verified by more than one million I-V curves. In this work, a state-of-the-art deterministic method is proposed for photovoltaic single diode model parameter extraction from experimental current–voltage (I-V) curves. This new method takes advantage of the numerical derivative (d I /d V) information, such that a high-quality solution can be obtained by linear least squares technique. The solution can be further improved through a two-step nonlinear optimization procedure using the trust-region-reflective or Levenberg-Marquardt algorithm. Compared with previous methods, the proposed method has achieved the best accuracy with the lowest computation cost up till now in the benchmark test of two commonly-used case studies. When comparing the computation costs of different works, it is pointed out for the first time that not only the number of iteration steps but also the single-step computation complexity should be taken into account if different deterministic optimization algorithms are implemented. Furthermore, the robustness of the proposed method is verified through a large-scale dataset containing more than one million I-V curves, showing that the method can be used for realtime monitoring of photovoltaic modules. Finally, a MATLAB app is developed and freely provided to the public. [ABSTRACT FROM AUTHOR]