A protective coating on steel substrate was prepared by electrodepositing Zn-Ni alloy and subsequent passivation with trivalent chromium conversion treatment. This trivalent chromium coating is believed to have superior electrochemical impedance and resistance to corrosion. Zn-Ni alloy coating was first electrodeposited in an alkaline bath at 25 °C and 1.0 ~ 3.0 A/dm^2. Subsequently, trivalent chromium passivation was performed in acidic (pH ＜ 2) conversion solution containing chromium nitrate and cobalt nitrate. Three different conversion durations, 10, 30, and 60 s, were investigated. Experimental results showed that the Zn-Ni coating was about 3 μm in thickness and consisted of 15 ~ 18 wt. % of nickel. Moreover, the Zn-Ni coating exhibited columnar grains with, through XRD measurement, (330) preferred orientation and other diffraction peaks in (600), (444), (552), (741) and (660). The result of dynamic polarization measurements on the passivated coating revealed that the one with 30 s treatment demonstrated the best corrosion resistance. Further analysis using XPS showed the trivalent chromium coating mainly consisted of Cr_2O_3, ZnO and NiO. In TEM examination of the Zn-Ni coating, the conversion coating had a thickness of 250 nm and fine porous structure. This uniform coating demonstrated good corrosion resistance.