The 19th century saw the invention of the modern railway and their rapid expansion into national networks in Europe and worldwide. During this period motive power was confined to steam locomotives, some of which by mid-century were capable of top speeds of, with average express journey speeds of. The 1880s saw the development of electric power and its application to rail transport. Electric power offered several advantages over steam; it is more efficient, allowing more rapid acceleration, and a higher power output when necessary. Its disadvantage is the high initial cost of the infrastructure involved, such as the power production and distribution system needed. 1879 saw the demonstration of an experimental system by Werner von Siemens in Berlin, which was followed by an electric tramway at Lichterfelde, in 1881, and heavy rail applications in 1890 and 1895. In 1899 a consortium of ten of the largest and wealthiest companies in Germany joined together to form the "Research Association for High-speed Electric Railways" to examine the possibilities of high-speed electric rail travel.
Research Association for High-speed Electric Railways
The society commissioned two railcars for testing. These were built by, a Colognerolling-stock manufacturer and consortium member, with Siemens and AEG supplying the electrical equipment. The cars were of standard size, with a capacity for 50 passengers, mounted on two six-wheel bogies, the outer axle being motorized. The power was drawn down from the three power cables running along the side of the track by three vertical catenaries, mounted on two towers fore and aft on the roof of the carriage. The electrical system was rated at 6–14 kV, operating at 25–50 Hz, giving a power equivalent of. The summer of 1901 saw a series of test runs, culminating in record-breaking speeds of. These tests revealed weaknesses in the trackbed, which had to be re-laid. Following this, in the autumn of 1903, a series of high-speed runs were achieved; of, by the Siemens railcar, on 6 October, and, by the AEG railcar, three weeks later, on 28 October 1903. This set a land speed record for rail vehicles which stood for the next 51 years. The tests had shown what was possible with electric motive power, but the three-phase system was too complex, and the cost of installation too prohibitive, for general use across the rail network. With this the St.E.S was wound up and the infrastructure dismantled. However advances in technology, particularly in semiconductors, are believed to offer new possibilities with the three-phase system.