In this study, PrFeB thin films with perpendicular magnetic anisotropy were deposited by magnetron sputtering. The effects of sputtering parameters (temperature, sputtering power, Ar working pressure, thickness of the film, annealing time etc.) on microstructure and magnetic properties were investigated. From the results, Ta metal capping layer improved the magnetic properties of PrFeB thin films, due to higher atomic mobility of Ta atoms in grain boundary. Besides, the hard magnetic phase can be obtained by in-situ annealing process (substrate heating) indicating hard phase formed easily on hot substrate. From the composition characterization, a film with good magnetic property usually contents Pr of 17-20 at.%. The perpendicular magnetic anisotropy and coercivity of the thin films could be further improved when the thickness of PrFeB magnetic layer as well as Ta buffer layer were 125nm and 50nm, respectively. Further post-annealing the PrFeB thin films only increased the grain size and the surface roughness, that degraded the magnetic performance. Thus post-annealing process was not necessary for formation of hard phase. In this study, the optimal sputtering parameters of PrFeB thin film are substrate temperature 600℃, RF power 150W, Ar gas pressure 40mtorr, thickness of PrFeB and Ta buffer layer are 125nm and 50nm, respectively. Good perpendicular magnetic properties of Hc⊥=10.5kOe, Hc//=10.9kOe, S⊥=0.91, and S//=0.29 were obtained with the film structure of Ta(50nm)/PrFeB(125nm)/Ta(20nm).