With the growing shortage of oil resources and the increasingly strict environmental regulations, countries are vigorously developing new energy vehicles, and as a truly zero-emission vehicle in the application, fuel cell electric vehicles can not only completely replace gasoline cars in term of fuel, but also have the advantages of high energy conversion efficiency, short hydrogenation time and long driving range. For Fuel Cell Hybrid Electric Vehicle (FCEV), and the Energy Management Control Strategy is the "core" of the whole vehicle control system, which has a direct and significant effect on the power and economy of the vehicle. In this paper, the "dual energy source system" composed of fuel cell and power battery is taken as the research object. Based on the proposed power system structure, a fuel cell hybrid power management control strategy is designed, and the simulation model based on Matlab/Simulink and real vehicle are adopted to perform performance verification on standard operating conditions. The strategy aims at optimizing the power and economy, sets the target control value of the SOC, coordinates the power output of the "dual energy source system" of the vehicle, reduces the load power fluctuation of Fuel Cell System(FCS), optimize the working range of fuel engine and improve the energy recovery efficiency according to the vehicle energy demand, the real-time status of the assembly and the vehicle operating conditions, so that the fuel cell and the power battery work as much as possible in the optimal efficiency range. The test results in vehicle show that the energy management control method is effective in engineering application, and the performance has reached the vehicle design goal.