In this paper, by the regression analysis of experimental data from proton exchange membrane fuel cell measurement, the parameters of semi-empirical equation for the voltage loss from activation and ohmic overvoltage can be found. The polarization curves of fact cell operating at various steady states can also he calculated accurately. The max voltage deviations between the calculation from the semi-empirical equation and the measurement data of the activation and ohmic overvoltage are 0.0875 (V) and 0.007025 (V) respectively. Therefore, the semi-empirical equation can be used to calculate the performance of single cell and stacks. The performance of PEM fad cell can be improved by raising its operating temperature and pressure. However, membrane conductivity and fuel cell performance decrease at high temperature by a greater rate of water evaporation and the membrane dry out. Especially the performance decreases obviously for using the air to the cathode. The fuel cell performance increases by raising the pressure of cathode is higher than that raising the same pressure of anode.