There are many applications using polarization-independent LC phase modulators. Many researches proposed polarization-independent LC phase modulators, such as 1) double-layered type, 2) residual phase type, 3) combination of double-layered and residual phase type and 4) Kerr effect type. In 2015, we proposed a new type of polarization-independent LC phase modulator in nano-PDLC(droplet size~250 nm) which indicates the optical phases come from LC orientation and Kerr effect-induced birefringence. According to previous results, optical phases coming from Kerr effect is much smaller than the one coming from LC orientation. Hence, in this paper, we would like to investigate that in nano-PDLC, is it possible to make optical phases coming from Kerr effect be the same order compared with the optical phases come from LC orientation? In this paper, we proposed that the polarization-independent optical phases in nano-PDLC can be divided into two categories. 1) For droplet size about 200 nm, the optical phases come from LC orientation and Kerr effect. Under small voltages, Kerr phase dominates. With increasing voltages, optical phases come from LC orientation instead of Kerr effect. According to experimental results, Kerr phase is around 0.1π(rad) and orientational phase ranges from 0.24π(rad)~ 0.42π(rad). 2) For droplet size larger than 350nm, the optical phases come from LC orientation, without any Kerr phase. Through this research, we concluded that in nano-PDLC, Kerr phase depends on the droplet size. Under certain conditions, Kerr phase and orientational phase can compete. We also concluded that Kerr phase occurs before threshold voltage. After threshold voltage, orientational phase increases and Kerr phase gradually disappears.