In this case, we report three equivalent circuit models- Transmission Line (TL) model, simplified(S) model, and S-CPE model- to simulate the data obtained from the electrochemical impedance spectroscopy (EIS) experiments of a NT-DSSC device. We found that the new established S-CPE model gave the best results among others in terms of the phase difference and the impedance percentage deviations. With the device under AM1.5 one-sun irradiation of varied intensities, we found that the short-circuit (Jsc) and open-circuit voltage (Voc) decrease upon decreasing the irradiation intensity, but the fill factor (FF) an opposite trend. Because the effect of the FF increasing is larger than Voc decreasing that of the overall efficiency of a NT-DSSC device slightly increases under low-intensity condition. On the other hand, we performed EIS measurements equivalent to Voc under dark condition to the TiO2 layer with the same Fermi level (EF) as one-sun irradiation. This approach excludes complex electron transfer processes in the TiO2/dye/electrolyte interface so that the corresponding impedance is related to only the electron III interception from TiO2 to electrolyte. This method simplifies the interfacial problem so that we can easily analyze the difference of the cell performance resulting from different photosensitizers.