Permanganate conversion coatings, which have been used as protective coatings for aluminum alloys, are now being considered the prominent process for protecting the magnesium alloys from corrosion. This study investigated the effect of permanganate concentration on the properties of permanganate conversion coating on AM30 magnesium alloys in the first part. Moreover, the evolution of conversion coating immersed in 0.1 M acidic permanganate solution and the characterization of the coating with the addition of sodium molybdate, which stabilized the solution markedly, were studied in the second part. Results show that increasing the permanganate concentration reduced the growth rate of the coating via the initial formation of compact layer comprising manganese oxides. As a consequence, a thin layer with superior adhesion and corrosion resistance was obtained using the innovative process with simplicity and low cost. Adding Na2MoO4 in the conversion bath stabilized the solution completely, however, deteriorating the corrosion resistance dramatically on account of acidic isopolymolybdate ions stored or absorbed on the coating. In the optimal processing conditions, the corrosion area dropped down to approximate 0.07 % after 24 hrs salt spray tests, indicating the excellent corrosion resistance of the permanganate conversion coating. The formation mechanism of permanganate conversion coating was discussed in detail, which emphasis on the evolution of the coating with optimal parameter.