Double electrification is a system whereby a railway line is supplied power both via overhead catenary and a third rail. This is done to enable trains that use either system of power to share the same railway line, for example in the case of mainline and suburban trains (as used at Hamburg S-Bahn between 1940 and 1955). Parts of the UK North London Line, New York's Penn Station and the adjoining East River Tunnels and North River Tunnels are double-electrified.
The system is usually used only in exceptional cases as it can lead to problems caused by the interaction of the electric circuits; for example, where one system is powered with direct current and another by alternating current (AC), premagnetisation of the substation transformers of the AC system can occur.
A similar arrangement to double electrification is one in which both means of powering a train are present, but not live simultaneously. Such arrangements can be found in frontier stations and in sections of railway used for running tests.
The building of the Channel Tunnel between England and France required triple electrification of the motive power, as on the Type 92 locomotive and British Rail Class 373 Eurostar sets, because the French side uses overhead AC power, Belgium overhead DC, and the original route through Kent used DC third-rail distribution.