25T coaches
North America Because of train lengths and the high power requirements in
North America, HEP is supplied as
three-phase AC at 480
V (standard in the US), 575 V, or 600 V.
Transformers are fitted in each car for reduction to lower voltages. A typical implementation requires six wires in two cables at size 4/0 AWG. Additional redundancy is provisioned by duplication as HEP System A and HEP System B using a total of twelve wires and four cables, supporting up to 400 amps per cable.
United Kingdom In the UK, ETS is supplied at 800 V to 1000 V AC/DC two pole (400 or 600 A), 1500 V AC two pole (800 A) or at 415 V 3 phase on the
HST. On the former Southern Region, Mk I carriages were wired for a 750 V DC supply. This corresponds to line voltage on the Third Rail network. Class 73 Locomotives simply supply this line voltage direct to the ETS jumpers, whilst Class 33 Diesel Electric Locomotives have a separate engine driven Train Heating Generator which supplies 750 V DC to the train heating connections.
Ireland In Ireland, HEP is provided at European/IEC standard 230/400 V 50 Hz (originally 220/380 V 50 Hz.) This is to the same specification as the power systems used in Irish and EU domestic and commercial buildings and industry. On the Cork-Dublin CAF MK4 sets, this is provided by two generators, located in the
driving trailer van and on the push-pull Enterprise sets, this is provided by generators in a dedicated tailing van. Irish DMU trains, which make up the majority of the fleet, use small generators located under each coach. Historically, HEP and, in older vehicles, steam heating was provided by trailing generator vans containing generators and
steam boilers. These were normally located on the rear of train sets. The Enterprise Dublin-Belfast train sets initially used HEP from
GM 201 diesel-electric locomotives, but due to reliability issues and excessive wear on the locomotives systems, generator vans (sourced from retired Irish Rail MK3 sets and adapted for push-pull use) were added. HEP mode was scrapped when a
IE 201 Class locomotive caught fire.
Russia Russian cars use electric heating with either 3 kV DC voltage on DC lines or 3 kV AC voltage on AC lines provided by locomotive's main transformer. Newer cars are mostly made by Western European manufacturers and are equipped similarly to RIC cars.
Europe (RIC cars, except Russia and UK) RIC cars must be able to be supplied at all the following four voltages: 1,000 V Hz AC, 1,500 V 50 Hz AC, 1,500 V DC and 3,000 V DC. The first one is used in Austria, Germany, Norway, Sweden and Switzerland, where the
catenary system is used. The second one (1.5 kV AC) is used in countries which use catenary system (Croatia, Denmark, Finland, Hungary, Portugal, Serbia and UK, and some lines in France, Italy and Russia). In both cases, the proper voltage is provided by the locomotive's main transformer or an AC alternator in diesel locomotives. In countries using DC power (either 1.5 kV or 3 kV DC), the voltage collected by the pantograph is supplied directly to the cars. (Belgium, Poland and Spain, and some lines in Russia and Italy use 3 kV, and the Netherlands, and some lines in France use 1.5 kV; see more detailed information in the
List of railway electrification systems article). Modern cars often support 1,000 V 50 Hz AC as well, this variety is sometimes found in
depots and parking spots. Older European cars used high voltage only for heating, while light, fans and other low-current supply (e.g. shaver sockets in bathrooms) power was provided by axle-driven generator. Even older railcars used hot steam for heating, supplied by a steam locomotive. In the period when both steam and electric locomotives ran, some diesel and electric locomotives also had steam boilers fitted, there were also
steam generator cars in use and some cars were fitted with coal- or oil-fired boiler. Later, remaining steam locomotives used diesel powered electricity generator cars, also used sometimes nowadays in passenger trains pulled by freight-adopted diesel locomotives without such function. Today, with the developments in solid state electronics (thyristors and IGBTs), most cars have switching power supplies which take any RIC voltage (1.03.0 kV DC or /50 Hz AC) and can supply all the needed lower voltages. Low voltages differ depending on manufacturers, but typical values are: • 5 V DC for passenger
USB sockets • 1248 V DC for on-board electronics (supplied from chemical battery when HEP disabled) • 24110 V DC for feeding fluorescent lamps' electronic ballasts and for ventilation fans (supplied from chemical battery when HEP disabled) • Single-phase 230 V AC for passenger sockets, refrigerators etc. (sometimes supplied from chemical battery, as above) • Three-phase 400 V AC for air conditioning compressor, heating, ventilation fans (air conditioning is nowadays not supplied from chemical battery due to power consumption) Electric heating was typically supplied from high-voltage HEP line, but the unusual voltages are not common on the market and the equipment is expensive. A standard RIC-compliant HV heater has six resistors which are being switched accordingly to voltage: 6 in
series (3 kV DC), 2 × 3 in series (1.5 kV AC or DC) or 3 × 2 in series (1 kV AC). The selection and switching of a proper configuration is automatic for the sake of safety. Passengers can only operate
thermostat.
China in a China Railway passenger train In China, HEP is supplied in two forms. On all 25A/G cars built before 2005, rebuilt and air-conditioned 22/25B cars, most 25K cars, and most BSP-built 25T cars, HEP is supplied at three-phase 380 V AC by generator cars (originally classified as TZ cars, later reclassified to KD), a small number of DF11G diesel locomotives, and very limited number of retrofitted
SS9 electrics. Cars with diesel generator sets (factory-built RZ/RW/CA22/23/25B cars, some rebuilt YZ/YW22/23/25B cars, most German-built 24 cars, and very limited number of 25G/K/T cars for special use) also supply their own power in this form. It's possible to route AC electricity from a car with diesel generator set to a neighboring normal HEP car, although both cars can't run their air conditioning or heat on full load in this situation. Those diesel-powered cars can also run on HEP from elsewhere, without using their own diesel. Although considered inefficient and obsolete, mainly because the generator car 'wastes' traction power, staff, and fuel (if running on electrified lines), new cars using AC HEP are still in production, along with new generator cars/sets, mostly for use in areas without electrification, considering that the vast majority of China Railways' engines that are capable of supplying HEP are electric locomotives. On most newer 25G cars and 25/19T cars, power is supplied at 600 V DC by electric locos such as SS7C, SS7D, SS7E,
SS8,
SS9,
HXD1D,
HXD3C,
HXD3D, and some
DF11G diesels (No.0041, 0042, 0047, 0048, 0053-0056, 0101-0218). Small number of special generator cars (QZ-KD25T) designated for use on the high-altitude
Qinghai–Tibet Railway also supply power at 600 V DC. With new DC-equipped engines and cars entering service rapidly, as well as ageing and retirement of older equipments using AC, DC HEP has become the more prominent form of power supply of China Railways. Very limited number of cars, mostly 25Ts, can run on both forms of HEP. ==Alternatives==