BaCo_0.4Fe_0.4Zr_0.1Y_0.1O_3-δ （BCFZY） was synthesized by the citric acid complexation-nitrate combustion method， and then used as the air electrode material to fabricate a fuel electrode-supported reversible proton ceramic membrane cell （R-HCMC）. The electrochemical performance of obtained R-HCMC under different operating modes was investigated. The results show that the BCFZY synthesized at 900 ℃ exhibits a single cubic perovskite structure. In fuel cell mode at 700 ℃， the maximum output power was 424.7 mW?cm^-2， and the lowest polarization impedance was 0.23 Ω?cm². In the electrolysis mode， when the electrolysis voltage is 1.4 V， the maximum current density was 1 084 mW?cm^-2， and the hydrogen production rate was 3.1 mL?min^-1?cm^-2. The prepared BCFZY air electrode showed good electrical catalytical activity， and structure and performance stabilities under medium and low temperature conditions.