Based on the traditional anechoic coatings with cavities, this paper proposes a new type of hybrid underwater anechoic coating without increasing the thickness of the coating, which is made of micro-perforated plates and viscoelastic substrate. And this anechoic coating achieves good absorption performance in the low-frequency range. In theory, applications of the concept for homogenized equivalent layer and integrated transfer matrix method to evaluate the sound absorption performance of this nonhomogeneous underwater anechoic coating. Then comparisons of the theoretical model and finite element method to validate that present approach. The results reveal two absorption peaks of the hybrid anechoic coatings appear since the different physical mechanisms. The acoustic performance of the hybrid anechoic coating has been greatly improved compared with the traditional sound absorber. Meanwhile, it is shown that the sound absorption coefficient of structure is achieves 0.8 in the frequency range 2 kHz-10 kHz, which indicates that the design proposed in this paper has the potential to be used as an underwater sound absorption structure.