15 kV AC railway electrification

A pylon of a single phase AC 110 kV-powerline near Bartholomä in Germany. Lines of these type are used in Germany to supply electric railways with single phase AC at 16.7 hertz. In the substations of the railway, transformers are used to step it down to 15 kV.

The 15 kV, 16.7 Hz AC railway electrification system is used in Germany, Austria, Switzerland, Sweden and Norway. The high voltage enables high power transmission with low losses powering traction motors available since the beginning of the 20th century. Railway electrification in late 20th century tended to use 25 kV, 50 Hz AC systems which has become the preferred standard for new railway electrifications but extensions of the existing 15 kV networks are not completely unlikely.

Due to high conversion costs, it is unlikely that existing 15 kV, 16.7 Hz systems will be converted to 25 kV, 50 Hz despite the fact that this would reduce the weight of the on-board step-down transformers to one third that of the present devices.

History

The first electrified railways used series-wound DC motors, first at 600 V and then 1,500 V. Areas with 3 kV DC catenaries (primarily in Eastern Europe) used two 1,500 V DC motors in series. But even at 3 kV, the current needed to power a heavy train (particularly in rural and mountainous areas) can be excessive. Although increasing the transmission voltage decreases the current and associated resistive losses for a given power, insulation limits make higher voltage traction motors impractical. Transformers on each locomotive are thus required to step high transmission voltages down to practical motor operating voltages. Because transformers require alternating current (AC), high voltage electrified railways adopted AC along with the electric power distribution system (see War of Currents).

The 50 Hz (60 Hz in North America) AC grid was already established at the beginning of the 20th century. Although series-wound motors can in principle run on AC as well as DC (the reason they are also known as universal motors) large series-wound traction motors had problems with such high frequencies. High inductive reactance of the motor windings caused commutator flashover problems and the non-laminated magnetic pole-pieces originally designed for DC exhibited excessive eddy current losses. Using a lower AC frequency alleviated both problems.

In the German-speaking countries, high-voltage electrification began at 16 23 hertz, exactly one third of the national power grid frequency of 50 Hz. This facilitated the operation of rotary converters from the grid frequency and allowed dedicated railway power generators to operate at the same shaft speed as a standard 50 Hz generator by reducing the number of poles by a factor of three. For example, a generator turning at 1,000 rpm would be wound with two poles rather than six.

Separate plants supply railway power in Austria, Switzerland and Germany, except for Mecklenburg-Western Pomerania and Saxony-Anhalt; converters powered by the grid supply railway power in those two German states plus Sweden and Norway. Norway also has two hydro-electric power plants dedicated for railway power with 16 23 hertz output.

The first generators were synchronous AC generators or synchronous transformers; however, with the introduction of modern double fed induction generators, the control current induced an undesired DC component, leading to pole overheating problems. This was solved by shifting the frequency slightly away from exactly ⅓ the grid frequency; 16.7 hertz was arbitrarily chosen to remain within the tolerance of existing traction motors. Austria, Switzerland and Southern Germany switched their power plants to 16.7 Hz on 16 October 1995 at 12:00 CET.[1][2] Note that regional electrified sections run by synchronous generators keep their frequency of 16 23 Hz just as Sweden and Norway still run their railway networks at 16 23 Hz throughout.

One of the disadvantages of 16.7 Hz locomotives as compared to 50 Hz or 60 Hz locomotives is the heavier transformer required to reduce the overhead line voltage to that used by the motors and their speed control gear. Low frequency transformers need to have heavier magnetic cores and larger windings for the same level of power conversion. (See effect of frequency on the design of transformers.) The heavier transformers also lead to higher axle loads than for those of a higher frequency. This, in turn, leads to increased track wear and increases the need for more frequent track maintenance. The Czech Railways encountered the problem of the reduced power handling of lower frequency transformers when they rebuilt some 25 kV AC, 50 Hz locomotives (series 340) to operate on 15 kV AC, 16.7 Hz lines. As a result of using the same transformer cores (originally designed for 50 Hz) at the lower frequency, the transformers had to be de-rated to one third of their original power handling capability, thereby reducing the available tractive effort by the same amount (to around 1,000 kW).

These drawbacks, plus the need for a separate supply infrastructure and the lack of any technical advantages with modern motors and controllers has limited the use of 16 23 Hz and 16.7 Hz beyond the original five countries. Most other countries electrified their railways at the utility frequency of 50/60 Hz. Newer European electrification is mostly 25 kV AC at 50 Hz (primarily in Eastern Europe). Conversion to this voltage/frequency requires higher voltage insulators and greater clearance between lines and bridges and other structures. This is now standard for new overhead lines as well as for modernizing old installations.

Simple European standardization with an alignment of voltage/frequency across Europe is not necessarily cost-effective since trans-border transport is more limited by the differing national standards in other areas. To equip an electric locomotive with a transformer for two or more input voltages is cheap compared to the cost of installing multiple train protection systems and to run them through the approval procedure to get access to the railway network in other countries. However, some new high-speed lines to neighbouring countries are already intended to be built to 25 kV (e.g. in Austria to Eastern Europe). Newer locomotives are always built with asynchronous motor control systems that have no problem with a range of input frequencies including DC. However the Deutsche Bahn train operator does still use older models from the standard electric locomotive series - even though some are now as much as 50 years old. As soon as these obsolescent models are decommissioned, it will be easier to standardise, but this may take a few decades to happen. Meanwhile, the Deutsche Bahn tends to order train sets that are capable of running multiple electrification systems.

Distribution networks

In Germany (except Mecklenburg-Western Pomerania and Saxony-Anhalt), Austria and Switzerland, there is a separate single-phase power distribution grid for railway power at 16.7 Hz; the voltage is 110 kV in Germany and Austria and 132 kV in Switzerland. This system is called the centralized railway energy supply.

In Sweden, Norway, Mecklenburg-Western Pomerania and Saxony-Anhalt, the power is taken directly from the three-phase grid (110 kV at 50 Hz), converted to low frequency single phase and fed into the overhead line. This system is called the decentralized (i.e. local) railway energy supply.

Generation and conversion

The centralized system is supplied by special power plants that generate 110 kV (or 132 kV in the Swiss system) AC at 16.7 Hz and by rotary converters or AC/AC converters that are supplied from the national power grid (e.g. 110 kV, 50 Hz), they convert it to 55-0-55 kV (or 66-0-66 kV) AC at 16.7 Hz. The 0 V point is connected to earth through an inductance so that each conductor of the single phase AC power line has a voltage of 55 kV (or 66 kV) with respect to earth potential. This is similar to split-phase electric power systems and results in a balanced line transmission. The inductance through which the earthing is done is designed to limit earth currents in cases of faults on the line. At the transformer substations, the voltage is transformed from 110 kV (or 132 kV) AC to 15 kV AC and the energy is fed into the overhead line.

Asynchronous converters

The frequency of 16.7 Hz depends on the necessity to avoid synchronism in parts of the rotary machine, which consists principally of a three phase asynchronous motor and a single phase synchronous generator. Since synchronism sets in at a frequency of 16 23 Hz (according to the technical details) in the single phase system, the frequency of the centralized system was set to 16.7 Hz.

Power plants providing 110 kV, 16.7 Hz, are either dedicated to generating this specific single phase AC or have special generators for the purpose, such as the Neckarwestheim nuclear power plant or the Walchensee hydroelectric power station.

Synchronous converters

The power for the decentralized system is taken directly from the national power grid and directly transformed and converted into 15 kV, 16 23 Hz by synchronous-synchronous-converters or static converters. Both systems need additional transformers. The converters consist of a three-phase synchronous motor and a single-phase synchronous generator. The decentralized system in the north-east of Germany was established by the Deutsche Reichsbahn in the 1980s, because there was no centralized system available in these areas.

Facilities for 15 kV AC railway electrification in Germany, Austria and Switzerland

Germany, Austria and Switzerland operate the largest interconnected 15 kV AC system with central generation, and central and local converter plants.

Germany

Substations

In these facilities electricity is transformed down from 110 kV-level of DB to 15 kV. There is no conversion or generation of power.

Facility Coordinates
Aalen 48°49′20″N 10°02′31″E / 48.82222°N 10.04194°E
Adelsheim 49°24′57″N 9°24′17″E / 49.41583°N 9.40472°E
Almstedt 52°01′53″N 9°56′26″E / 52.03139°N 9.94056°E
Amstetten 48°34′08″N 9°52′37″E / 48.56889°N 9.87694°E
Appenweier 48°32′37″N 7°58′23″E / 48.54361°N 7.97306°E
Aschaffenburg 49°59′08″N 9°05′33″E / 49.98556°N 9.09250°E
Aubing 48°09′08″N 11°26′40″E / 48.15222°N 11.44444°E
Augsburg 48°23′54″N 10°52′0″E / 48.39833°N 10.86667°E
Bachstedt (planned) 51°03′18″N 11°11′32″E / 51.05500°N 11.19222°E
Baden-Baden 48°44′03″N 8°08′49″E / 48.73417°N 8.14694°E
Bad Reichenhall 47°44′51″N 12°54′09″E / 47.74750°N 12.90250°E
Barnstorf 52°42′26″N 8°30′40″E / 52.70722°N 8.51111°E
Bebra 50°58′32″N 9°47′23″E / 50.97556°N 9.78972°E
Bengel 50°0′34″N 7°03′23″E / 50.00944°N 7.05639°E
Berlin-Schönefeld 52°23′39″N 13°31′03″E / 52.39417°N 13.51750°E
Biblis 49°41′03″N 8°26′39″E / 49.68417°N 8.44417°E
Bingen 49°57′16″N 7°56′54″E / 49.95444°N 7.94833°E
Böhla 51°14′08″N 13°32′44″E / 51.23556°N 13.54556°E
Boizenburg 53°23′29″N 10°43′58″E / 53.39139°N 10.73278°E
Borken ( part of converter) 51°03′07″N 9°17′01″E / 51.05194°N 9.28361°E
Borne 52°06′40″N 12°32′28″E / 52.11111°N 12.54111°E
Braunschweig 52°16′09″N 10°38′24″E / 52.26917°N 10.64000°E
Buchholz 53°19′20″N 9°51′44″E / 53.32222°N 9.86222°E
Burgdorf 47°03′44″N 7°36′41″E / 47.06222°N 7.61139°E
Burgweinting 48°58′53″N 12°09′13″E / 48.98139°N 12.15361°E
Chemnitz ( part of converter) 50°51′44″N 12°56′21″E / 50.86222°N 12.93917°E
Datteln 51°37′43″N 7°20′03″E / 51.62861°N 7.33417°E
Denkendorf 48°56′19″N 11°27′19″E / 48.93861°N 11.45528°E
Donauwörth 48°42′58″N 10°45′43″E / 48.71611°N 10.76194°E
Dörstewitz (planned) 51°23′35″N 11°54′16″E / 51.39306°N 11.90444°E
Dortmund 51°30′38″N 7°24′03″E / 51.51056°N 7.40083°E
Dortmund-Scharnhorst 51°32′14″N 7°31′56″E / 51.53722°N 7.53222°E
Dresden ( part of converter) 50°59′40″N 13°50′06″E / 50.99444°N 13.83500°E
Duisburg 51°24′45″N 6°47′33″E / 51.41250°N 6.79250°E
Düsseldorf 51°13′18″N 6°50′11″E / 51.22167°N 6.83639°E
Ebensfeld 50°05′0″N 10°57′41″E / 50.08333°N 10.96139°E
Eggolsheim 49°45′10″N 11°03′27″E / 49.75278°N 11.05750°E
Eichenberg 51°22′34″N 9°55′31″E / 51.37611°N 9.92528°E
Eilenburg 51°26′48″N 12°37′08″E / 51.44667°N 12.61889°E
Eischleben (planned) 50°53′02″N 10°58′55″E / 50.88389°N 10.98194°E
Eisenach 50°57′51″N 10°22′19″E / 50.96417°N 10.37194°E
Elmshorn 53°45′45″N 9°39′17″E / 53.76250°N 9.65472°E
Elsfleth 53°16′52″N 8°28′26″E / 53.28111°N 8.47389°E
Emden 53°21′30″N 7°13′11″E / 53.35833°N 7.21972°E
Emskirchen 49°33′30″N 10°41′43″E / 49.55833°N 10.69528°E
Essen 51°27′24″N 7°01′39″E / 51.45667°N 7.02750°E
Eutingen 48°28′47″N 8°46′44″E / 48.47972°N 8.77889°E
Eystrup 52°47′32″N 9°13′45″E / 52.79222°N 9.22917°E
Fallersleben 52°25′16″N 10°40′30″E / 52.42111°N 10.67500°E
Finnentrop 51°10′03″N 7°58′01″E / 51.16750°N 7.96694°E
Flieden 50°25′08″N 9°34′18″E / 50.41889°N 9.57167°E
Flörsheim 50°0′17″N 8°24′54″E / 50.00472°N 8.41500°E
Freiburg 47°58′52″N 7°49′41″E / 47.98111°N 7.82806°E
Friedberg 50°19′28″N 8°46′25″E / 50.32444°N 8.77361°E
Fronhausen 50°41′55″N 8°41′53″E / 50.69861°N 8.69806°E
Fulda 50°32′40″N 9°41′28″E / 50.54444°N 9.69111°E
Gabelbach 48°22′45″N 10°33′35″E / 48.37917°N 10.55972°E
Garssen 52°40′30″N 10°07′44″E / 52.67500°N 10.12889°E
Geisenbrunn 48°06′29″N 11°19′51″E / 48.10806°N 11.33083°E
Geltendorf 48°06′21″N 11°01′48″E / 48.10583°N 11.03000°E
Gemünden 50°03′35″N 9°40′38″E / 50.05972°N 9.67722°E
Genshagener Heide 52°20′05″N 13°16′38″E / 52.33472°N 13.27722°E
Gleidingen 52°16′01″N 9°50′06″E / 52.26694°N 9.83500°E
Golm 52°24′10″N 12°58′08″E / 52.40278°N 12.96889°E
Gössnitz (old) 50°52′36″N 12°25′10″E / 50.87667°N 12.41944°E
Gössnitz (neu) 50°54′07″N 12°25′59″E / 50.90194°N 12.43306°E
Grafing 48°02′53″N 11°56′12″E / 48.04806°N 11.93667°E
Grönhart 48°59′29″N 10°55′48″E / 48.99139°N 10.93000°E
Grossheringen 51°06′22″N 11°39′19″E / 51.10611°N 11.65528°E
Grosskorbetha 51°15′12″N 12°01′14″E / 51.25333°N 12.02056°E
Grünauer Kreuz ( switching post) 52°25′31″N 13°33′42″E / 52.42528°N 13.56167°E
Güsen 52°20′07″N 11°58′42″E / 52.33528°N 11.97833°E
Hagen 51°24′32″N 7°27′43″E / 51.40889°N 7.46194°E
Hahn (planned) 53°17′42″N 8°09′52″E / 53.29500°N 8.16444°E
Halbe (fed from 15 kV line from Neuhof) 52°07′00″N 13°41′31″E / 52.11667°N 13.69194°E
Haltingen 47°36′19″N 7°36′40″E / 47.60528°N 7.61111°E
Hamburg-Harburg ( part of converter) 53°26′57″N 10°00′02″E / 53.44917°N 10.00056°E
Hameln 52°08′26″N 9°26′43″E / 52.14056°N 9.44528°E
Haren 52°47′02″N 7°18′04″E / 52.78389°N 7.30111°E
Heeren 52°34′28″N 11°52′05″E / 52.57444°N 11.86806°E
Herbolzheim 48°13′58″N 7°46′09″E / 48.23278°N 7.76917°E
Herchen 50°46′11″N 7°31′19″E / 50.76972°N 7.52194°E
Hessental 49°05′58″N 9°46′36″E / 49.09944°N 9.77667°E
Höchst 50°06′12″N 8°33′28″E / 50.10333°N 8.55778°E
Holzkirchen 47°53′0″N 11°41′56″E / 47.88333°N 11.69889°E
Ihringshausen 51°21′07″N 9°32′14″E / 51.35194°N 9.53722°E
Ilmenau-Wolfsberg (planned) 50°41′17″N 10°59′54″E / 50.68806°N 10.99833°E
Ingolstadt 48°46′48″N 11°25′34″E / 48.78000°N 11.42611°E
Jübek ( part of converter) 54°33′25″N 9°24′35″E / 54.55694°N 9.40972°E
Kaiserslautern 49°26′16″N 7°42′19″E / 49.43778°N 7.70528°E
Karow 52°36′29″N 13°27′30″E / 52.60806°N 13.45833°E
Karthaus 49°42′28″N 6°35′28″E / 49.70778°N 6.59111°E
Kirchheim 50°52′40″N 9°35′13″E / 50.87778°N 9.58694°E
Kirchmöser 52°22′55″N 12°24′36″E / 52.38194°N 12.41000°E
Klebitz 51°56′32″N 12°50′12″E / 51.94222°N 12.83667°E
Koblenz 50°23′12″N 7°33′52″E / 50.38667°N 7.56444°E
Köln ( part of converter) 50°54′14″N 7°02′55″E / 50.90389°N 7.04861°E
Köln-Mülheim 50°58′21″N 7°01′07″E / 50.97250°N 7.01861°E
Körle 51°10′51″N 9°31′48″E / 51.18083°N 9.53000°E
Kreiensen 51°50′54″N 9°58′11″E / 51.84833°N 9.96972°E
Kyhna 51°30′42″N 12°16′50″E / 51.51167°N 12.28056°E
Landshut 48°32′48″N 12°06′31″E / 48.54667°N 12.10861°E
Leer 53°12′48″N 7°27′53″E / 53.21333°N 7.46472°E
Lehrte ( part of converter) 52°22′54″N 9°57′20″E / 52.38167°N 9.95556°E
Leipzig-Wahren 51°22′55″N 12°18′47″E / 51.38194°N 12.31306°E
Leonberg 48°47′35″N 8°58′28″E / 48.79306°N 8.97444°E
Limburg 50°22′45″N 8°05′59″E / 50.37917°N 8.09972°E
Löhne 52°11′42″N 8°42′35″E / 52.19500°N 8.70972°E
Lüneburg 53°16′01″N 10°24′42″E / 53.26694°N 10.41167°E
Magdeburg 52°09′12″N 11°39′35″E / 52.15333°N 11.65972°E
Mainbernheim 49°42′0″N 10°12′39″E / 49.70000°N 10.21083°E
Mannheim 49°26′27″N 8°33′43″E / 49.44083°N 8.56194°E
Markt Bibart 49°38′48″N 10°25′24″E / 49.64667°N 10.42333°E
Markt Schwaben 48°11′06″N 11°50′59″E / 48.18500°N 11.84972°E
Marl ( part of converter) 51°39′42″N 7°10′45″E / 51.66167°N 7.17917°E
Meckesheim 49°19′45″N 8°48′19″E / 49.32917°N 8.80528°E
Mehrhoog 51°44′55″N 6°29′57″E / 51.74861°N 6.49917°E
Montabaur 50°26′43″N 7°49′13″E / 50.44528°N 7.82028°E
Mörlach 49°11′57″N 11°14′24″E / 49.19917°N 11.24000°E
Mottgers 50°16′43″N 9°39′21″E / 50.27861°N 9.65583°E
Mühlacker 48°57′06″N 8°50′15″E / 48.95167°N 8.83750°E
Mühlanger 51°51′02″N 12°45′54″E / 51.85056°N 12.76500°E
Muldenstein 51°39′31″N 12°21′01″E / 51.65861°N 12.35028°E
Müllheim 47°48′20″N 7°35′44″E / 47.80556°N 7.59556°E
München-Freimann 48°11′56″N 11°36′30″E / 48.19889°N 11.60833°E
München-Ost 48°08′13″N 11°39′02″E / 48.13694°N 11.65056°E
Münster 51°55′25″N 7°38′05″E / 51.92361°N 7.63472°E
Murnau 47°41′19″N 11°11′33″E / 47.68861°N 11.19250°E
Nannhofen 48°12′58″N 11°11′20″E / 48.21611°N 11.18889°E
Neckarelz 49°20′21″N 9°07′0″E / 49.33917°N 9.11667°E
Neumarkt (Oberpfalz) 49°16′06″N 11°27′45″E / 49.26833°N 11.46250°E
Neudittendorf 50°54′29″N 10°53′38″E / 50.90806°N 10.89389°E
Neuhof 52°08′03″N 13°28′49″E / 52.13417°N 13.48028°E
Neumünster 54°06′33″N 9°56′49″E / 54.10917°N 9.94694°E
Neu-Ulm ( part of converter) 48°23′52″N 10°01′18″E / 48.39778°N 10.02167°E
Niedernhausen 50°09′24″N 8°19′09″E / 50.15667°N 8.31917°E
Niemberg 51°33′33″N 12°06′10″E / 51.55917°N 12.10278°E
Nörten-Hardenberg 51°38′21″N 9°56′12″E / 51.63917°N 9.93667°E
Nürnberg ( part of converter) 49°25′22″N 11°00′30″E / 49.42278°N 11.00833°E
Nürnberg-Stein ( part of converter) 49°25′47″N 11°00′19″E / 49.42972°N 11.00528°E
Oberacker 49°05′23″N 8°43′55″E / 49.08972°N 8.73194°E
Oberdachstetten 49°25′03″N 10°25′31″E / 49.41750°N 10.42528°E
Oelde 51°49′31″N 8°07′27″E / 51.82528°N 8.12417°E
Offenbach am Main 50°06′13″N 8°47′17″E / 50.10361°N 8.78806°E
Offenburg 48°27′30″N 7°55′10″E / 48.45833°N 7.91944°E
Orscheid 50°39′18″N 7°19′24″E / 50.65500°N 7.32333°E
Osnabrück 52°15′56″N 8°07′04″E / 52.26556°N 8.11778°E
Plattling 48°46′49″N 12°51′08″E / 48.78028°N 12.85222°E
Plochingen 48°43′08″N 9°23′31″E / 48.71889°N 9.39194°E
Pretzier 52°49′48″N 11°16′49″E / 52.83000°N 11.28028°E
Pulling 48°22′12″N 11°42′50″E / 48.37000°N 11.71389°E
Rathenow 52°35′26″N 12°16′39″E / 52.59056°N 12.27750°E
Remagen 50°34′06″N 7°14′35″E / 50.56833°N 7.24306°E
Rethen 52°17′29″N 9°48′47″E / 52.29139°N 9.81306°E
Riesa 51°18′41″N 13°16′0″E / 51.31139°N 13.26667°E
Ritterhude 53°11′37″N 8°45′47″E / 53.19361°N 8.76306°E
Rödelheim 50°08′29″N 8°35′49″E / 50.14139°N 8.59694°E
Rohrbach 49°58′59″N 9°42′12″E / 49.98306°N 9.70333°E
Röhrmoos 48°19′24″N 11°26′49″E / 48.32333°N 11.44694°E
Rosenheim 47°50′44″N 12°07′58″E / 47.84556°N 12.13278°E
Rotenburg ( new) 53°06′28″N 9°21′06″E / 53.10778°N 9.35167°E
Rotenburg ( old) 53°06′26″N 9°21′17″E / 53.10722°N 9.35472°E
Roth (planned) 50°22′57″N 11°02′13″E / 50.38250°N 11.03694°E
Rottweil 48°07′56″N 8°39′18″E / 48.13222°N 8.65500°E
Rudersdorf 50°50′04″N 8°8′58″E / 50.83444°N 8.14944°E
Saalfeld 50°38′42″N 11°22′35″E / 50.64500°N 11.37639°E
Saarbrücken ( part of converter) 49°14′38″N 6°58′40″E / 49.24389°N 6.97778°E
Salzbergen 52°19′42″N 7°20′39″E / 52.32833°N 7.34417°E
Saubachtal (planned) 51°12′20″N 11°32′33″E / 51.20556°N 11.54250°E
Siegburg 50°47′23″N 7°12′30″E / 50.78972°N 7.20833°E
Sindorf 50°53′34″N 6°39′14″E / 50.89278°N 6.65389°E
Singen 47°45′29″N 8°52′54″E / 47.75806°N 8.88167°E
Solpke 52°30′02″N 11°17′43″E / 52.50056°N 11.29528°E
Sommerau 48°07′39″N 8°18′41″E / 48.12750°N 8.31139°E
Steinbach am Wald 50°26′10″N 11°22′51″E / 50.43611°N 11.38083°E
Stetzsch 51°04′35″N 13°39′36″E / 51.07639°N 13.66000°E
Stolberg 50°47′29″N 6°12′06″E / 50.79139°N 6.20167°E
Stuttgart-Rohr 48°42′50″N 9°06′35″E / 48.71389°N 9.10972°E
Stuttgart-Zazenhausen 48°50′40″N 9°11′03″E / 48.84444°N 9.18417°E
Traunstein 47°52′06″N 12°37′42″E / 47.86833°N 12.62833°E
Uelzen 52°57′50″N 10°32′37″E / 52.96389°N 10.54361°E
Urbach 50°33′15″N 7°34′26″E / 50.55417°N 7.57389°E
Vaihingen / Enz 48°56′35″N 8°57′58″E / 48.94306°N 8.96611°E
Wächtersbach 50°14′44″N 9°17′18″E / 50.24556°N 9.28833°E
Waiblingen 48°49′31″N 9°17′51″E / 48.82528°N 9.29750°E
Waigolshausen 49°58′01″N 10°06′59″E / 49.96694°N 10.11639°E
Warburg 51°29′50″N 9°08′58″E / 51.49722°N 9.14944°E
Weimar ( part of converter) 50°59′27″N 11°20′34″E / 50.99083°N 11.34278°E
Weiterstadt 49°54′38″N 8°34′29″E / 49.91056°N 8.57472°E
Werdau 50°43′11″N 12°22′11″E / 50.71972°N 12.36972°E
Wickrath 51°07′15″N 6°23′44″E / 51.12083°N 6.39556°E
Wiesbaden 50°01′52″N 8°15′59″E / 50.03111°N 8.26639°E
Wiesental 49°13′19″N 8°29′48″E / 49.22194°N 8.49667°E
Wolfratshausen 47°54′30″N 11°25′32″E / 47.90833°N 11.42556°E
Wörsdorf 50°14′09″N 8°14′51″E / 50.23583°N 8.24750°E
Wunstorf 52°24′56″N 9°28′58″E / 52.41556°N 9.48278°E
Würzburg 49°48′06″N 9°53′52″E / 49.80167°N 9.89778°E
Wurzen 51°21′47″N 12°44′45″E / 51.36306°N 12.74583°E
Wustermark 52°32′26″N 12°58′25″E / 52.54056°N 12.97361°E
Zapfendorf (shut down) 50°01′33″N 10°56′29″E / 50.02583°N 10.94139°E

Switching stations

Stations for connecting/isolating parts of the system.

Facility Coordinates
Gabelbach 48°22′49″N 10°33′32″E / 48.38028°N 10.55889°E
Kirchhellen 51°37′56″N 6°57′9″E / 51.63222°N 6.95250°E
Neckarwestheim 49°2′34″N 9°12′6″E / 49.04278°N 9.20167°E
Nenndorf 53°22′35″N 9°54′13″E / 53.37639°N 9.90361°E
Nitzahn 52°27′35″N 12°20′45″E / 52.45972°N 12.34583°E
Schönarts 49°57′46″N 9°49′08″E / 49.96278°N 9.81889°E

Central converter plants

In these facilities the AC from the public grid is transformed and converted into the single phase AC and fed into the railway current distribution grid. At some facilities, power is also fed to the overhead line. Conversion is done by rotary converters or electronic inverters.

Facility Year of commissioning Power Technology Coordinates
Aschaffenburg 2010 60 MW GTO-Thyristor 49°59′08″N 9°05′33″E / 49.98556°N 9.09250°E
Borken 1963 50 MW Rotary converter 51°3′7″N 9°17′01″E / 51.05194°N 9.28361°E
Bremen 100 MW GTO-thyristor 53°7′49″N 8°40′49″E / 53.13028°N 8.68028°E
Chemnitz 1965 Rotary converter 50°51′42″N 12°56′18″E / 50.86167°N 12.93833°E
Dresden 1977 Rotary converter 50°59′40″N 13°50′6″E / 50.99444°N 13.83500°E
Düsseldorf 30 MW GTO-thyristor 51°13′18″N 6°50′11″E / 51.22167°N 6.83639°E
Hamburg-Harburg Rotary converter 53°26′55″N 10°0′6″E / 53.44861°N 10.00167°E
Jübek 14 MW GTO-thyristor 54°33′25″N 9°24′34″E / 54.55694°N 9.40944°E
Karlsfeld 100 MW GTO-thyristor 48°12′57″N 11°26′06″E / 48.21583°N 11.43500°E
Karlsruhe 1957 53 MW Rotary converter 48°58′49″N 8°22′34″E / 48.98028°N 8.37611°E
Köln 1957 75 MW Rotary converter 50°54′14″N 7°2′55″E / 50.90389°N 7.04861°E
Lehrte 1963 (rotary converter)/ 2010 (inverter) 37 MW (rotary converter)/ 64 MW (inverter) Rotary converter/ inverter 52°22′54″N 9°57′15″E / 52.38167°N 9.95417°E
Limburg 120 MW IGCT inverter 50°24′20″N 8°3′58″E / 50.40556°N 8.06611°E
Marl 1963 25 MW Rotary converter 51°39′40″N 7°10′47″E / 51.66111°N 7.17972°E
Neckarwestheim 1989 140 MW Rotary converter 49°2′22″N 9°10′40″E / 49.03944°N 9.17778°E
Neckarwestheim II 2011 140 MW GTO-thyristor 48°2′16″N 9°10′40″E / 48.03778°N 9.17778°E
Neu-Ulm Rotary converter 48°23′51″N 10°1′16″E / 48.39750°N 10.02111°E
Nürnberg 1939 34 Rotary converter 49°25′48″N 11°0′18″E / 49.43000°N 11.00500°E
Nürnberg 2012 75 IGBT-Inverter 49°25′48″N 11°0′18″E / 49.43000°N 11.00500°E
Pforzheim (shut down) Rotary converter
Saarbrücken Rotary converter 49°14′37″N 6°58′35″E / 49.24361°N 6.97639°E
Singen (shut down in 2002) Rotary converter 47°45′29″N 8°52′54″E / 47.75806°N 8.88167°E
Thyrow 2004/2005 8×15 = 120 MW GTO-thyristor 52°14′0″N 13°18′10″E / 52.23333°N 13.30278°E
Weimar 1973 Rotary converter 50°59′27″N 11°20′34″E / 50.99083°N 11.34278°E

Local converter plants

In these facilities the AC from the public grid is transformed and converted into the single phase AC and fed to the overhead line. Conversion is done by rotary converters or electronic inverters.

Facility Year of commissioning Power Technology Coordinates
Adamsdorf 1984 Rotary converter 53°24′31″N 13°2′43″E / 53.40861°N 13.04528°E
Anklam Rotary converter 53°50′46″N 13°43′0″E / 53.84611°N 13.71667°E
Berlin-Rummelsburg 1984 Rotary converter 52°29′12″N 13°30′33″E / 52.48667°N 13.50917°E
Bützow (demolished) Rotary converter 53°49′30″N 11°59′3″E / 53.82500°N 11.98417°E
Cottbus 1989 Rotary converter 51°45′0″N 14°17′12″E / 51.75000°N 14.28667°E
Doberlug-Kirchhain 1981 (Rotary converter), 2008 (Inverter) Inverter 51°38′49″N 13°34′51″E / 51.64694°N 13.58083°E
Eberswalde 1987 Rotary converter 52°50′40″N 13°48′1″E / 52.84444°N 13.80028°E
Falkenberg 1987 Rotary converter 51°34′50″N 13°15′26″E / 51.58056°N 13.25722°E
Oder Rotary converter 52°21′17″N 14°28′42″E / 52.35472°N 14.47833°E
Lalendorf Rotary converter 53°45′15″N 12°23′54″E / 53.75417°N 12.39833°E
Löwenberger Land Rotary converter 52°54′5″N 13°11′18″E / 52.90139°N 13.18833°E
Ludwigsfelde 1981 Rotary converter 52°18′17″N 13°16′31″E / 52.30472°N 13.27528°E
Lübeck-Genin 2008 Inverter ?
Magdeburg (shut down) 1974 Rotary converter 52°9′14″N 11°39′40″E / 52.15389°N 11.66111°E
Neustadt (Dosse) Rotary converter 52°50′51″N 12°27′24″E / 52.84750°N 12.45667°E
Oberröblingen Rotary converter 51°26′42″N 11°17′44″E / 51.44500°N 11.29556°E
Prenzlau Rotary converter 53°19′59″N 13°52′21″E / 53.33306°N 13.87250°E
Rosslau Rotary converter 51°53′51″N 12°14′29″E / 51.89750°N 12.24139°E
Rostock 1985 Rotary converter 54°3′54″N 12°8′39″E / 54.06500°N 12.14417°E
Schwerin 1987 Rotary converter 53°35′39″N 11°23′11″E / 53.59417°N 11.38639°E
Senftenberg 1988 Rotary converter 51°31′58″N 14°1′14″E / 51.53278°N 14.02056°E
Stendal Rotary converter 52°35′0″N 11°52′7″E / 52.58333°N 11.86861°E
Stralsund Rotary converter 54°17′9″N 13°5′23″E / 54.28583°N 13.08972°E
Wittenberg 1978 Rotary converter 51°52′30″N 12°41′20″E / 51.87500°N 12.68889°E
Wittenberge 1987 Rotary converter 52°59′46″N 11°46′8″E / 52.99611°N 11.76889°E
Wolkramshausen Inverter 51°26′19″N 10°44′8″E / 51.43861°N 10.73556°E
Wünsdorf 1982 Rotary converter 52°10′24″N 13°27′42″E / 52.17333°N 13.46167°E
Wustermark Rotary converter 52°32′33″N 12°58′25″E / 52.54250°N 12.97361°E

Power plants

Facility Year of commissioning Power Type State Coordinates
Bad Abbach 2000 3.5 MW Hydroelectric power plant Bavaria 48°56′47″N 12°00′47″E / 48.94639°N 12.01306°E
Aufkirchen Hydroelectric power plant Bavaria 48°18′19″N 11°51′29″E / 48.30528°N 11.85806°E
Bad Reichenhall 1912 7.2 MW Hydroelectric power plant Bavaria 47°43′4″N 12°51′47″E / 47.71778°N 12.86306°E
Bergheim 1970 23.7 MW Hydroelectric power plant Bavaria 48°45′2″N 11°16′23″E / 48.75056°N 11.27306°E
Bertoldsheim 1967 18.9 MW Hydroelectric power plant Bavaria 48°44′8″N 11°1′14″E / 48.73556°N 11.02056°E
Bittenbrunn 1969 20.2 MW Hydroelectric power plant Bavaria 48°44′4″N 11°8′37″E / 48.73444°N 11.14361°E
Datteln Coal-fired power plant North Rhine-Westphalia 51°37′43″N 7°19′50″E / 51.62861°N 7.33056°E
Eitting Hydroelectric Power Plant Hydroelectric power plant Bavaria 48°21′31″N 11°52′56″E / 48.35861°N 11.88222°E
Ingolstadt 1971 19.8 MW Hydroelectric power plant Bavaria 48°45′1″N 11°24′43″E / 48.75028°N 11.41194°E
Kammerl 1905 Hydroelectric power plant Bavaria 47°39′42″N 10°59′12″E / 47.66167°N 10.98667°E
Kirchmöser 160 MW Gas turbine power plant Brandenburg 52°23′39″N 12°25′5″E / 52.39417°N 12.41806°E
Langenprozelten 1976 160 MW Hydroelectric power plant Bavaria 50°3′11″N 9°34′52″E / 50.05306°N 9.58111°E
Lausward 1957 520 MW Gas turbine power plant North Rhine-Westphalia 51°13′16″N 6°43′58″E / 51.22111°N 6.73278°E
Lünen 1984 110 MW Coal-fired power plant North Rhine-Westphalia 51°36′59″N 7°28′44″E / 51.61639°N 7.47889°E
Mannheim 1955 190 MW Coal-fired power plant Baden-Württemberg 49°26′45″N 8°29′27″E / 49.44583°N 8.49083°E
Muldenstein (retired) 1912 11.3 MW Coal-fired power plant Saxony-Anhalt 51°39′25″N 12°20′59″E / 51.65694°N 12.34972°E
Mittelsbüren 110 MW Coal-fired power plant Bremen 53°7′43″N 8°41′7″E / 53.12861°N 8.68528°E
Neckarwestheim I 1976 190 MW Nuclear power plant Baden-Württemberg 49°2′25″N 9°10′18″E / 49.04028°N 9.17167°E
Pfrombach Hydroelectric power plant Bavaria 48°26′28″N 11°59′34″E / 48.44111°N 11.99278°E
Vohburg Hydroelectric power plant Bavaria 48°46′40″N 11°36′4″E / 48.77778°N 11.60111°E
Walchensee 1924 Hydroelectric power plant Bavaria 47°37′48″N 11°20′17″E / 47.63000°N 11.33806°E

Points, where two powerlines for traction current crosses each other without interconnection

Lines Coordinates
Flieden-Bebra / Fulda-Mottgers 50°28′55″N 9°40′52″E / 50.48194°N 9.68111°E
Bebra-Borken / Kirchheim-Körle 51°01′59″N 9°34′31″E / 51.03306°N 9.57528°E
Karlsruhe-Mühlacker /Vaihingen-Graben/Neudorf 48°56′40″N 8°48′18″E / 48.94444°N 8.80500°E
Orscheid-Köln / Orscheid-Montabaur 50°39′15″N 7°19′28″E / 50.65417°N 7.32444°E

Border-crossing power lines

Germany – Austria

Line Coordinates
Walchenseekraftwerk – Zirl 47°23′55″N 11°15′53″E / 47.39861°N 11.26472°E
Traunstein – Steinsdorf 47°53′20″N 12°58′25″E / 47.88889°N 12.97361°E

Former border between West and East Germany

Line Coordinates
Lehrte – Heeren 52°24′48″N 10°59′34″E / 52.41333°N 10.99278°E
Bebra – Weimar 51°00′29″N 10°12′13″E / 51.00806°N 10.20361°E
Steinfeld am Wald – Saalfeld 50°27′52″N 11°25′07″E / 50.46444°N 11.41861°E

Switzerland

Substations

In these facilities electricity is transformed down from 132 kV or 66 kV to 15 kV. There is no conversion or generation of power.

Facility Coordinates
Balerna 45°50′52″N 9°00′11″E / 45.84778°N 9.00306°E
Biel 47°7′48″N 7°15′26″E / 47.13000°N 7.25722°E
Brugg 47°28′28″N 8°12′16″E / 47.47444°N 8.20444°E
Burgdorf 47°03′44″N 7°36′41″E / 47.06222°N 7.61139°E
Bussigny 46°32′38″N 6°33′36″E / 46.54389°N 6.56000°E
Chur 46°52′24″N 9°31′57″E / 46.87333°N 9.53250°E
Croy 46°42′00″N 6°28′33″E / 46.70000°N 6.47583°E
Courtemaîche 47°27′21″N 7°3′20″E / 47.45583°N 7.05556°E
Delémont 47°21′49″N 7°21′30″E / 47.36361°N 7.35833°E
Eglisau 47°34′22″N 8°30′50″E / 47.57278°N 8.51389°E
Emmenbrücke 47°4′4″N 8°17′9″E / 47.06778°N 8.28583°E
Etzwilen 47°39′42″N 8°49′7″E / 47.66167°N 8.81861°E
Farsch 46°49′25″N 9°23′59″E / 46.82361°N 9.39972°E
Filisur (RhB) 46°40′19″N 9°41′36″E / 46.67194°N 9.69333°E
Flüelen 46°53′43″N 8°37′29″E / 46.89528°N 8.62472°E
Fribourg 46°48′50″N 7°9′15″E / 46.81389°N 7.15417°E
Frutigen 46°34′48″N 7°38′56″E / 46.58000°N 7.64889°E
Gampel 46°18′28″N 7°45′24″E / 46.30778°N 7.75667°E
Genève-Tuleries 46°14′59″N 6°8′48″E / 46.24972°N 6.14667°E
Giornico 46°24′5″N 8°52′23″E / 46.40139°N 8.87306°E
Gland 46°24′52″N 6°15′48″E / 46.41444°N 6.26333°E
Hendschiken 47°23′29″N 8°12′16″E / 47.39139°N 8.20444°E
Kandersteg 46°30′10″N 7°40′28″E / 46.50278°N 7.67444°E
Küblis (RhB) 46°54′56″N 9°45′33″E / 46.91556°N 9.75917°E
Melide 45°57′59″N 8°56′54″E / 45.96639°N 8.94833°E
Muttenz 47°32′5″N 7°38′38″E / 47.53472°N 7.64389°E
Neuchâtel 46°59′25″N 6°54′56″E / 46.99028°N 6.91556°E
Killwangen 47°26′13″N 8°20′38″E / 47.43694°N 8.34389°E
Olten 47°21′40″N 7°55′20″E / 47.36111°N 7.92222°E
Puidoux 46°29′21″N 6°45′41″E / 46.48917°N 6.76139°E
Rapperswil SG 47°13′29″N 8°49′55″E / 47.22472°N 8.83194°E
Rivera 46°7′32″N 8°55′27″E / 46.12556°N 8.92417°E
Roche 46°21′52″N 6°55′28″E / 46.36444°N 6.92444°E
Romont FR 46°41′4″N 6°54′23″E / 46.68444°N 6.90639°E
Rotkreuz 47°8′42″N 8°26′27″E / 47.14500°N 8.44083°E
Sagliains (RhB) 46°45′44″N 10°05′39″E / 46.76222°N 10.09417°E
Saint Léonard 46°15′8″N 7°25′21″E / 46.25222°N 7.42250°E
Sankt Margrethen 47°27′12″N 9°38′22″E / 47.45333°N 9.63944°E
Sargans 47°2′26″N 9°27′8″E / 47.04056°N 9.45222°E
Seebach 47°25′20″N 8°33′17″E / 47.42222°N 8.55472°E
Selfranga 46°51′20″N 9°53′03″E / 46.85556°N 9.88417°E
Sihlbrugg 47°14′34″N 8°34′37″E / 47.24278°N 8.57694°E
Sils (RhB) 46°42′8″N 9°28′8″E / 46.70222°N 9.46889°E
Stein AG 47°32′29″N 7°57′59″E / 47.54139°N 7.96639°E
Steinen 47°2′53″N 8°36′17″E / 47.04806°N 8.60472°E
Tavanasa (RhB) 46°45′09″N 9°02′42″E / 46.75250°N 9.04500°E
Thun 46°46′20″N 7°35′53″E / 46.77222°N 7.59806°E
Wanzwil 47°11′49″N 7°41′40″E / 47.19694°N 7.69444°E
Wetzikon ZH 47°18′35″N 8°47′56″E / 47.30972°N 8.79889°E
Winterthur-Grüze 47°30′0″N 8°45′4″E / 47.50000°N 8.75111°E
Yverdon 46°46′03″N 6°38′51″E / 46.76750°N 6.64750°E
Ziegelbrücke 47°7′59″N 9°3′55″E / 47.13306°N 9.06528°E
Zürich 47°22′52″N 8°31′19″E / 47.38111°N 8.52194°E

Central converter plants

In these facilities the AC from public grid is transformed and converted into the single phase AC and fed into the railway current distribution grid. At some facilities, power is also fed to the overhead line. Conversion is done by rotary converters or electronic inverters.

Facility Year of commissioning Power Technology used Coordinates
Bever (RhB) Rotary converter 46°32′52″N 9°53′17″E / 46.54778°N 9.88806°E
Landquart (RhB) Rotary converter 46°58′28″N 9°33′6″E / 46.97444°N 9.55167°E
Giubiasco Rotary converter 46°10′32″N 9°0′9″E / 46.17556°N 9.00250°E
Kerzers Rotary converter 46°58′27″N 7°11′25″E / 46.97417°N 7.19028°E
Massaboden Rotary converter 46°19′55″N 8°0′42″E / 46.33194°N 8.01167°E
Rupperswil Rotary converter 47°24′21″N 8°6′19″E / 47.40583°N 8.10528°E
Seebach Rotary converter 47°25′20″N 8°33′17″E / 47.42222°N 8.55472°E
Wimmis Rotary converter 46°40′51″N 7°39′23″E / 46.68083°N 7.65639°E

Switching stations

Stations for connecting/isolating parts of the system.

Facility Coordinates
Zollikofen 47°0′45″N 7°27′53″E / 47.01250°N 7.46472°E

Power plants

Facility Year of commissioning Power Type Coordinates
Amsteg 1922 55 MW Hydroelectric power plant 46°46′4″N 8°40′18″E / 46.76778°N 8.67167°E
Le Châtelard VS Hydroelectric power plant 46°3′41″N 6°57′29″E / 46.06139°N 6.95806°E
Etzelwerk Hydroelectric power plant 47°11′42″N 8°48′42″E / 47.19500°N 8.81167°E
Göschenen Hydroelectric power plant 46°40′2″N 8°35′3″E / 46.66722°N 8.58417°E
Klosters Hydroelectric power plant 46°51′39″N 9°53′44″E / 46.86083°N 9.89556°E
Gösgen 51,3 MW Hydroelectric power plant 47°22′8″N 7°58′47″E / 47.36889°N 7.97972°E
Lungerersee 1994 9 MW Hydroelectric Power Plant 46°49′20.51″N 8°10′25.52″E / 46.8223639°N 8.1737556°E
Massaboden 1916 7,2 MW Hydroelectric power plant 46°19′55″N 8°0′42″E / 46.33194°N 8.01167°E
Mühleberg 1921 45 MW Hydroelectric power plant 46°58′9″N 7°17′4″E / 46.96917°N 7.28444°E
Ritom 1920 Hydroelectric power plant 46°31′2″N 8°40′33″E / 46.51722°N 8.67583°E
Rupperswil 1945 Hydroelectric power plant 47°24′42″N 8°6′52″E / 47.41167°N 8.11444°E
Vernayaz Hydroelectric power plant 46°8′3″N 7°2′10″E / 46.13417°N 7.03611°E
Wassen Hydroelectric power plant 46°42′56″N 8°36′36″E / 46.71556°N 8.61000°E

Border-crossing power lines

Germany–Switzerland

Line Coordinates
Holdingen – Muttenz 47°34′53″N 07°36′14″E / 47.58139°N 7.60389°E
Singen – Etzwilen 47°42′49″N 08°49′52″E / 47.71361°N 8.83111°E

Austria

Substations

In these facilities electricity is transformed down from 110 kV to 15 kV. No conversion or generation of power takes place.

Facility Coordinates
Absdorf 48°23′52″N 15°59′38″E / 48.39778°N 15.99389°E
Angern 48°22′56″N 16°49′19″E / 48.38222°N 16.82194°E
Amstetten (Österreich) 48°7′9″N 14°53′7″E / 48.11917°N 14.88528°E
Asten 48°14′2″N 14°24′20″E / 48.23389°N 14.40556°E
Attnang-Puchheim 48°1′8″N 13°43′38″E / 48.01889°N 13.72722°E
Bad Vöslau 47°58′06″N 16°13′28″E / 47.96833°N 16.22444°E
Bludenz 47°8′41″N 9°49′44″E / 47.14472°N 9.82889°E
Bruck Mur 47°25′42″N 15°16′26″E / 47.42833°N 15.27389°E
Dölsach 46°48′53″N 12°49′55″E / 46.81472°N 12.83194°E
Dorfgastein 47°14′5″N 13°6′17″E / 47.23472°N 13.10472°E
Elsbethen 47°45′9″N 13°5′4″E / 47.75250°N 13.08444°E
Feldkirch 47°15′8″N 9°37′4″E / 47.25222°N 9.61778°E
Florisdorf 48°15′42″N 16°24′19″E / 48.26167°N 16.40528°E
Fritzens-Wattens 47°18′6″N 11°35′48″E / 47.30167°N 11.59667°E
Gaisbach Wartberg 48°19′51″N 14°29′52″E / 48.33083°N 14.49778°E
Golling-Abtenau 47°35′53″N 13°9′53″E / 47.59806°N 13.16472°E
Göpfritz 48°43′48″N 15°23′29″E / 48.73000°N 15.39139°E
Gries am Brenner 47°2′36″N 11°29′9″E / 47.04333°N 11.48583°E
Götzendorf 48°1′34″N 16°34′59″E / 48.02611°N 16.58306°E
Graz 47°04′40″N 15°24′48″E / 47.07778°N 15.41333°E
Haag 48°05′33″N 14°35′36″E / 48.09250°N 14.59333°E
Hohenau
Hütteldorf 48°11′43″N 16°16′17″E / 48.19528°N 16.27139°E
Kitzbühel 47°28′52″N 12°22′59″E / 47.48111°N 12.38306°E
Küpfern 47°51′9″N 14°37′3″E / 47.85250°N 14.61750°E
Landeck 47°9′8″N 10°35′11″E / 47.15222°N 10.58639°E
Mallnitz 46°58′40″N 13°10′44″E / 46.97778°N 13.17889°E
Marchtrenk 48°12′11″N 14°6′11″E / 48.20306°N 14.10306°E
Mariahof 47°06′16″N 14°22′28″E / 47.10444°N 14.37444°E
Matrei 47°7′38″N 11°27′11″E / 47.12722°N 11.45306°E
Meidling 48°10′30″N 16°20′29″E / 48.17500°N 16.34139°E
Mistelbach 48°33′51″N 16°33′33″E / 48.56417°N 16.55917°E
Münster
Parndorf 47°59′45″N 16°50′33″E / 47.99583°N 16.84250°E
Pettneu 47°08′55″N 10°21′46″E / 47.14861°N 10.36278°E
Pusarnitz 46°50′5″N 13°24′17″E / 46.83472°N 13.40472°E
Riedau 48°18′31″N 13°37′37″E / 48.30861°N 13.62694°E
Rohr 48°11′15″N 15°25′47″E / 48.18750°N 15.42972°E
Sankt Johann im Pongau 47°20′10″N 13°11′23″E / 47.33611°N 13.18972°E
Sankt Pölten 48°13′55″N 15°39′19″E / 48.23194°N 15.65528°E
Sankt Veit 46°45′39″N 14°22′28″E / 46.76083°N 14.37444°E
Schladming 47°23′38″N 13°40′43″E / 47.39389°N 13.67861°E
Schlöglmühl 47°40′57″N 15°54′46″E / 47.68250°N 15.91278°E
Semmering 47°37′36″N 15°48′53″E / 47.62667°N 15.81472°E
Wien-Simmering 48°09′05″N 16°25′37″E / 48.15139°N 16.42694°E
Steindorf 47°58′0″N 13°14′24″E / 47.96667°N 13.24000°E
Tulln 48°19′24″N 16°2′37″E / 48.32333°N 16.04361°E
Unterberg 47°12′50″N 11°23′32″E / 47.21389°N 11.39222°E
Villach 46°35′42″N 13°49′55″E / 46.59500°N 13.83194°E
Wald am Schoberpass 47°27′5″N 14°40′7″E / 47.45139°N 14.66861°E
Wartberg an der Krems 47°59′21″N 14°7′18″E / 47.98917°N 14.12167°E
Wegscheid 48°14′16″N 14°16′3″E / 48.23778°N 14.26750°E
Wiener Neustadt 47°47′54″N 16°13′13″E / 47.79833°N 16.22028°E
Wörgl 47°29′58″N 12°4′19″E / 47.49944°N 12.07194°E
Zellerndorf 48°41′31″N 15°58′9″E / 48.69194°N 15.96917°E
Zirl (old) 47°15′53″N 11°13′59″E / 47.26472°N 11.23306°E
Zirl (neu) 47°15′55″N 11°13′18″E / 47.26528°N 11.22167°E

Central converter plants

In these facilities the AC from the public grid is transformed and converted into the single phase AC and fed into the railway current distribution grid. At some facilities, power is also fed to the overhead line. Conversion is done by rotary converters or electronic inverters.

Facility Year of commissioning Power Coordinates
Auhof 1956 90 MW 48°12′00″N 16°14′12″E / 48.20000°N 16.23667°E
Bergern 1983 48°13′3″N 15°16′17″E / 48.21750°N 15.27139°E
Haiming 1995 47°14′47″N 10°52′27″E / 47.24639°N 10.87417°E
Kledering 1989 48°8′21″N 16°25′56″E / 48.13917°N 16.43222°E
Sankt Michael 1975 47°21′27″N 15°0′9″E / 47.35750°N 15.00250°E

Power plants

Facility Year of commissioning Power Type Coordinates
Annabrücke 20 MW Hydroelectric power plant 46°33′39″N 14°28′46″E / 46.56083°N 14.47944°E
Braz 1954 20 MW Hydroelectric power plant 47°8′0″N 9°56′45″E / 47.13333°N 9.94583°E
Enzigerboden 20 MW Hydroelectric power plant 47°10′10″N 12°37′36″E / 47.16944°N 12.62667°E
Fulpmes 1983 15 MW Hydroelectric power plant 47°9′30″N 11°21′29″E / 47.15833°N 11.35806°E
Obervellach Hydroelectric power plant 46°56′13″N 13°11′29″E / 46.93694°N 13.19139°E
Schaltposten Schönberg Hydroelectric power plant 47°12′02″N 11°23′29″E / 47.20056°N 11.39139°E
Sankt Pantaleon Hydroelectric power plant 48°13′29″N 14°31′50″E / 48.22472°N 14.53056°E
Schneiderau Hydroelectric power plant 47°11′50″N 12°36′28″E / 47.19722°N 12.60778°E
Spullersee 1925 36 MW Hydroelectric power plant 47°7′58″N 10°3′16″E / 47.13278°N 10.05444°E
Steeg 1910 Hydroelectric power plant (only direct fed of overhead wire) 47°36′29″N 13°37′57″E / 47.60806°N 13.63250°E
Uttendorf Hydroelectric power plant 47°15′43″N 12°34′3″E / 47.26194°N 12.56750°E
Weyer Hydroelectric power plant 47°51′07″N 14°38′19″E / 47.85194°N 14.63861°E

Points, where two powerlines for traction current crosses each other without interconnection

Lines Coordinates
Sankt Johann im Pongau-Bruck/Fusch / Sankt Johann im Pongau-Selzthal 47°20′09″N 13°11′27″E / 47.33583°N 13.19083°E
Sankt Johann im Pongau-Uttendorf / Sankt Johann im Pongau-Mallnitz 47°20′01″N 13°11′17″E / 47.33361°N 13.18806°E
Sankt Johann im Pongau-Bruck/Fusch / Sankt Johann im Pongau-Mallnitz 47°17′47″N 13°04′24″E / 47.29639°N 13.07333°E
Sankt Johann im Pongau-Schneiderau / Bruck/Fusch-Uttendorf 47°15′46″N 12°33′59″E / 47.26278°N 12.56639°E
Sankt Johann im Pongau-Schneiderau / Uttendorf-Kitzbühl 47°15′45″N 12°33′59″E / 47.26250°N 12.56639°E
Sankt Johann im Pongau-Schneiderau / Uttendorf-Kitzbühl 47°15′44″N 12°33′59″E / 47.26222°N 12.56639°E
Bruck/Fusch-Enzingerboden / Uttendorf-Kitzbühl 47°15′45″N 12°33′55″E / 47.26250°N 12.56528°E
Uttendorf-Enzingerboden, Schneiderau Branch / Schneiderau-Enzingerboden 47°11′49″N 12°36′28″E / 47.19694°N 12.60778°E
Uttendorf-Enzingerboden / Schneiderau-Enzingerboden 47°10′39″N 12°37′34″E / 47.17750°N 12.62611°E
Uttendorf-Enzingerboden / Schneiderau-Enzingerboden 47°11′38″N 12°37′00″E / 47.19389°N 12.61667°E

Norway

In Norway all electric railways use 15 kV 1623 Hz AC (except the Thamshavnbanen museum railway which uses 6.6 kV 25 Hz AC). The Oslo T-bane and tramways use 750V DC power.

Sweden

In Sweden most electric railways use 15 kV 1623 Hz AC. Exceptions include: Saltsjöbanan and Roslagsbanan (1.5kV DC), the Stockholm Metro (650V and 750V DC) and tramways (750V DC). The Oresund Bridge linking Sweden and Denmark is electrified at 25 kV, Danish standard; the split is located on the Swedish side near the bridge. Only two-system trains (or diesel trains; rare) can pass the point.

See also

References

  1. Bahnstromsystem (German) railway electrification systems
  2. C. Linder (2002), "Umstellung der Sollfrequenz im zentralen Bahnstromnetz von 16 23 Hz auf 16,70 Hz (English: Switching the frequency in train electric power supply network from 16 2/3 Hz to 16,70 Hz)" (in German), Elektrische Bahnen (Munich: Oldenbourg-Industrieverlag) Book 12, ISSN 0013-5437

External links