Oxides in which total electrical conductivity is determined by the partial conductivities of three types of charge carriers i.e. holes/electrons, oxygen ions, and protons are key components of well-functioning proton ceramic fuel cells. Apart from their electrochemical properties, the easily modified microstructure is also an important feature of these electrodes. Here, a group of SrTi1-xFexO3-δ (STF, x=0.2-0.8) perovskites prepared by solid-state synthesis was studied. The microstructure of ceramics was studied using scanning electron microscopy, and the results showed a significant influence of Fe amount on the grain size and material’s porosity. The electrical transport results show a different conductivity in dry and humidified atmosphere. The hydration kinetics related to the water incorporation are presented with the transition from single-fold to two-fold behavior, related to the proton-electron hole interaction observed in measurements. The obtained results strictly show a triple-conductivity of SrTi0.8Fe0.2O3-δ system at a lower temperature range, where the protonic defects are thermodynamically stable.