In recent years, the Western Line of Taiwan Railway Administration (TRA) in the metropolitan areas have been rapid transit systematized. At the same time, the line capacity is near saturation. Therefore, the impact from electromechanical equipment failures on the operation is becoming more significant. The reliability of the overhead catenary system affects the operational safety and service quality directly, so the improvement of the overhead catenary system reliability is definitely an important and urgent issue. In accordance with the principles of the European Standard EN50126, both the qualitative and quantitative analyses of reliability on the overhead catenary system of the TRA Western Line (both the Mountain Line and the Coast Line are included) were conducted with the fault tree analysis method. The results show that the messenger wires are the weakest link in the overhead catenary system, and therefore the improvement work is needed. The mean time between failures (MTBF) of the overhead catenary system per hundred kilometers is about 198 days, which provides an important reference for setting up the system maintenance cycle. In the study, it also explored the overhead catenary system maintainability and availability, and explained the inherent correlation of the RAMS. Meanwhile, it also proposed solutions to improve the reliability of the operational phase as the follows: adopting high reliability components, adopting easier-to-replace and modularized components, and fostering trained and experienced maintenance personnel.