The Europlug is a flat, non-rewirable two-pole, round-pin domestic AC power plug, rated for voltages up to 250 V and currents up to 2.5 A. [1] It is a compromise design intended to connect low-power Class II appliances safely to the many different forms of round-pin domestic power socket used across Europe. However, it is not compatible with the rectangular-pin BS 1363 sockets found in Cyprus, Gibraltar, Singapore, Malaysia, United Arab Emirates, Hong Kong, Ireland, Malta and the United Kingdom. By the standard, Europlugs must be non-rewirable and must be supplied attached to a power cord; anything else is non-compliant. [1]
The plug is often used on the housing of small plug-in power supplies. Even if standardization excludes it, there are cable couplings for Europlugs and rewireable plugs available.
The Europlug design, intended for use with socket-outlets meeting other standards, appeared first in 1963 as Alternative II of Standard Sheet XVI in the second edition of CEE Publication 7 by the contributing members of Austria, Belgium, Czechoslovakia, Denmark, Federal Republic of Germany, Finland, France, Greece, Hungary, Italy, Netherlands, Norway, Poland, Portugal, Sweden, Switzerland, United Kingdom, and Yugoslavia. [2] The Europlug is therefore sometimes also referred to as the "CEE 7/16 Alternative II plug" or simply as the "CEE 7/16 plug". It was also described in 1975 as plug C5 in IEC Technical Report 83.[ citation needed ] In 1990 it was defined by Cenelec standard EN 50075 [1] which has national equivalents in most European countries, as described in IEC 60083 [3] which superseded IEC/TR 83 (and no longer uses the C5 designation).[ citation needed ]
The Europlug is unusual as the standard specifies a plug only; there is no socket/outlet defined specifically for use with it. The Europlug is attached to the housing of small power devices of Class II with maximal current of 2.5 A.
The dimensions of the Europlug were chosen for compatibility and safe use, such that with continental European domestic power sockets:
Additionally, the design allows for a more compact and less bulky design of mobile phone chargers, than the BS 1363 form factor in the UK.
Europlugs are only designed for low-power (less than 2.5 A) Class II (double-insulated) devices that operate at normal room temperature and do not require a protective-earth connection.
The pins of the Europlug are 19 mm long. They consist of a 9 mm long conductive tip of 4 mm diameter with a rounded ending, followed by a 10 mm long flexible insulated shaft of not more than 3.8 mm diameter. The two pins are not exactly parallel and converge slightly; their centres are 17 to 18 mm apart at the tip and 18 to 19 mm apart at the base. The elasticity of the converging pins provides sufficient contact force for the Europlug's current rating with a variety of socket-hole arrangements. The entire plug is 35.3 mm wide and 13.7 mm high, and must not exceed these dimensions within 18 mm behind its front plane (this allows for the recesses on many European socket types). The left and right side of the plug are formed by surfaces that are at 45° relative to the horizontal plane. [1]
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The Europlug is designed to be compatible with these sockets. They have 4.8 mm holes with centres spaced 19 mm apart. The minimum distance between the holes is thus 14.2 mm, while the minimum distance between the converged pins on the Europlug is 13.5 mm, allowing it to grip the socket despite its smaller pin width.
The Europlug is not compatible with type D sockets, used in e.g. India and South Africa. These sockets have 5.1 mm holes with centres spaced 19.1 mm apart, which means a Europlug can be inserted if the sockets do not have protective shutters. However, the socket design might not allow the plug to grip it.
The Europlug is physically not compatible with BS 1363 13 A sockets, used in e.g. the UK and Ireland. UK law requires a suitable fuse to be fitted in each plug to protect the appliance flexible cord; Europlugs do not contain such fuses. BS 1363 sockets contain a child-safety shutter; clause 13.7.2 of BS 1363-2 requires that Europlugs will not open the shutters. [4] In some types of BS 1363 socket (but not all) the safety mechanism can be tampered with so that a Europlug may then be forced into the open line and neutral ports. The UK Electrical Safety Council has drawn attention to the fire risk associated with forcing Europlugs into BS 1363 sockets. [5] There is also a risk of damage to both the plug and socket.
UK consumer protection legislation requires that most domestic electrical goods sold must be provided with fitted plugs to BS 1363-1. [6] The exception is that shavers, electric toothbrushes and similar personal hygiene products may be supplied with a Europlug as an alternative to the BS 4573 plug (see below).
The Europlug fits BS 1363 sockets without shutters, but the plug is only rated for 2.5 A and the UK sockets are fused at 32 A. The round pins have only a very small contact area with the rectangular sockets.
Fused conversion plugs to BS 1363-5 are available for Europlugs, and equipment fitted with these may be legally sold in the UK. [7]
The Europlug is not designed to be compatible with BS 4573 sockets. These sockets have 5.1 mm holes with centres spaced 16.7 mm apart, meaning a reliable contact might not be possible.
Most 2-pin UK shaver sockets will accept either BS 4573 plugs or Europlugs, but are rated for a maximum of 0.2 A. UK consumer protection legislation allows for shavers, electric toothbrushes and similar personal hygiene products to be supplied with a Europlug as an alternative to the BS 4573 plug. This has the advantage that these devices can then also be used in other European countries.
Originally these sockets had flat openings and were not compatible with the Europlug. In 1989 a new version was designed to be compatible with the Europlug. Newer sockets have 4.5 mm holes with centres spaced 19 mm apart. The minimum distance between the holes is thus 14.5 mm, while the minimum distance between the converged pins on the Europlug is 13.5 mm, allowing it to grip the socket despite its smaller pin width.
The Europlug is designed to be compatible with Type 11 & 12 (outdated single-phase sockets, 10 A) and Type 13 (recessed single-phase socket, 10 A; Type J) and is consequently compatible with all by SN 441011 currently supported sockets. [2] This includes Type 15 (three-phase, 10 A), Type 21 & 23 (single-phase, 16 A) and Type 25 (three-phase, 16 A). [8] The diameter of the openings of the 10 A sockets is 4.5 mm and the openings of the 16 A sockets are 4.5 x 5.5 mm wide. The norm space between L (one-phase) or L1 (three-phase) and N is 19 mm.
The Europlug is designed to be compatible with 10A Type L sockets, commonly found in Italy. They have 4.0 mm holes with centres spaced 19 mm apart. It is also compatible with dual 10A/16A sockets, but it does not fit into the 16A only variant.
The 10 A variant of type N used in Brazil has 4.0 mm holes and also allows the Europlug to be used; see Types J and L. The 20 A variant has 4.8 mm holes and also allows the Europlug to be used; see Types E, F and K.
Thailand has a hybrid receptacle which also supports Europlug. However, with the Type O standard with 4.8 mm diameter, the standard Europlug with 4.0 mm might experience loose contact. [9]
British Standards (BS) are the standards produced by the BSI Group which is incorporated under a royal charter and which is formally designated as the national standards body (NSB) for the UK. The BSI Group produces British Standards under the authority of the charter, which lays down as one of the BSI's objectives to:
Set up standards of quality for goods and services, and prepare and promote the general adoption of British Standards and schedules in connection therewith and from time to time to revise, alter and amend such standards and schedules as experience and circumstances require.
IEC 60320 Appliance couplers for household and similar general purposes is a set of standards from the International Electrotechnical Commission (IEC) specifying non-locking connectors for connecting power supply cords to electrical appliances of voltage not exceeding 250 V (a.c.) and rated current not exceeding 16 A. Different types of connector are specified for different combinations of current, temperature and earthing requirements. Unlike IEC 60309 connectors, they are not coded for voltage; users must ensure that the voltage rating of the equipment is compatible with the mains supply. The standard uses the term coupler to encompass connectors on power cords and power inlets and outlets built into appliances.
The DIN connector is an electrical connector that was standardized by the Deutsches Institut für Normung (DIN), the German Institute for Standards, in the mid 1950s, initially with 3 pins for mono, but when stereo connections and gear appeared in late 1950s, versions with 5 pins or more were launched. The male DIN connectors (plugs) feature a 13.2 mm diameter metal shield with a notch that limits the orientation in which plug and socket can mate. The range of DIN connectors, different only in the configuration of the pins, have been standardized as DIN 41524 / IEC/DIN EN 60130-9 ; DIN 45322 ; DIN 45329 / IEC/DIN EN 60130–9 ; and DIN 45326 / IEC/DIN EN 60130-9.
Schuko is a plug/socket system used in much of Europe. It is a registered trademark referring to a system of AC power plugs and sockets that is defined as "CEE 7/3" (sockets) and "CEE 7/4" (plugs). A Schuko plug features two round pins of 4.8 mm diameter for the line and neutral contacts, plus two flat contact areas on the top and bottom side of the plug for protective earth (ground). The socket has a predominantly circular recess which is 17.5 mm deep with two symmetrical round apertures and two earthing clips on the sides of the socket positioned to ensure that the earth is always engaged before live pin contact is made. Schuko plugs and sockets are symmetric AC connectors. They can be mated in two ways, therefore line can be connected to either pin of the appliance plug. As with most types of European sockets, Schuko sockets can accept Europlugs. Schuko plugs are considered a very safe design when used with Schuko sockets, but they can also mate with other sockets to give an unsafe result.
AC power plugs and sockets connect devices to mains electricity to supply them with electrical power. A plug is the connector attached to an electrically-operated device, often via a cable. A socket is fixed in place, often on the internal walls of buildings, and is connected to an AC electrical circuit. Inserting the plug into the socket allows the device to draw power from this circuit.
IEC 60309 is a series of international standards from the International Electrotechnical Commission (IEC) for "plugs, socket-outlets and couplers for industrial purposes". They are also referred to as "pin & sleeve" connectors in North America or as "CeeForm" connectors in the entertainment industry. The maximum voltage allowed by the standard is 1000 V DC or AC; the maximum current, 800 A; and the maximum frequency, 500 Hz. The ambient temperature range is −25 °C to 40 °C.
Mains electricity by country includes a list of countries and territories, with the plugs, voltages and frequencies they commonly use for providing electrical power to low voltage appliances, equipment, and lighting typically found in homes and offices. Some countries have more than one voltage available. For example, in North America, a unique split-phase system is used to supply to most premises that works by center tapping a 240 volts transformer. This system is able to concurrently provide 240 volts and 120 volts. Consequently, this allows homeowners to wire up both 240 V and 120 V circuits as they wish. Most sockets are connected to 120 V for the use of small appliances and electronic devices, while larger appliances such as dryers, electric ovens, ranges and EV chargers use dedicated 240 V sockets. Different sockets are mandated for different voltage or maximum current levels.
Industrial and multiphase plugs and sockets provide a connection to the electrical mains rated at higher voltages and currents than household plugs and sockets. They are generally used in polyphase systems, with high currents, or when protection from environmental hazards is required. Industrial outlets may have weatherproof covers, waterproofing sleeves, or may be interlocked with a switch to prevent accidental disconnection of an energized plug. Some types of connectors are approved for hazardous areas such as coal mines or petrochemical plants, where flammable gas may be present.
IEC 60906-1 is an international standard designed "to provide a standard for a safe, compact and practical 16 A 250 V AC system of plugs and socket-outlets that could be accepted by many countries as their national standard, even if not in the near future." The standard was originally published by the International Electrotechnical Commission in 1986; the current edition is ed2.0 published in 2009. Although it is almost identical to the Swiss SEV 1011 T12 plug for 10 A 250 V a.c. standardised in 1937, its dimensions are slightly different and its polarization is flipped. As of July 2014, only South Africa has introduced a standard based closely on IEC 60906-1. Brazil used it as the basis for its NBR 14136 standard, but this is not compatible with IEC 60906-1. In 2017 the European Union (EU) published recommendations advising against the harmonisation of domestic plug and socket systems in the EU.
AS/NZS 3112 is the harmonised/joint Australian and New Zealand Standard for AC power plugs (male) and sockets (female). The standard is used in Australia, New Zealand, Fiji, Tonga, Solomon Islands, Papua New Guinea and several other Pacific island countries, plus in Argentina and China. The International Electrotechnical Commission (IEC) "world plugs" Web site calls this plug Type I.
GOST 7396 is a series of Soviet and later Russian standards that specify basic dimensions and safety requirements for power plugs and sockets used in Russia and other former Soviet Republics, as well as for export to markets that use American or British plugs.
NEMA connectors are power plugs and sockets used for AC mains electricity in North America and other countries that use the standards set by the US National Electrical Manufacturers Association. NEMA wiring devices are made in current ratings from 15 to 60 amperes (A), with voltage ratings from 125 to 600 volts (V). Different combinations of contact blade widths, shapes, orientations, and dimensions create non-interchangeable connectors that are unique for each combination of voltage, electric current carrying capacity, and grounding system.
IEC 62196Plugs, socket-outlets, vehicle connectors and vehicle inlets – Conductive charging of electric vehicles is a series of international standards that define requirements and tests for plugs, socket-outlets, vehicle connectors and vehicle inlets for conductive charging of electric vehicles and is maintained by the technical subcommittee SC 23H “Plugs, Socket-outlets and Couplers for industrial and similar applications, and for Electric Vehicles” of the International Electrotechnical Commission (IEC).
South African National Standard 164: Plugs and socket outlets for household and similar purposes for use in South Africa is the South African Bureau of Standards' standard for domestic AC power plugs and sockets. As a former British colony, South Africa's electricity standards are of British derivation, and it uses 220/230 V at 50 Hz AC.
Plugs and sockets for electrical appliances not hardwired to mains electricity originated in the United Kingdom in the 1870s and were initially two-pin designs. These were usually sold as a mating pair, but gradually de facto and then official standards arose to enable the interchange of compatible devices. British standards have proliferated throughout large parts of the former British Empire.
The IEC 62196 Type 2 connector is used for charging electric vehicles, mainly within Europe, as it was declared standard by the EU. Based on widespread red IEC 60309 three phase plugs with five pins, which come in different diameters according to maximum current, a single size was selected, as maximum possible power will be communicated to the car via two additional communication pins and by a simple resistor coding within the cable. The onboard charger inside the car has to limit the current accordingly.
There are approximately 20 types in common use around the world, such as AC power plugs and sockets, and many obsolete socket types which are still found in older buildings.
CEE 7 is a standard for alternating-current plugs and sockets. First published in 1951 by the former International Commission on the Rules for the Approval of Electrical Equipment (IECEE), it unified standards produced by several continental European countries. The 2nd edition was published in 1963 and last updated in March 1983. It remains available from the IEC, but they state that "this standard shall not be used alone, it is to be used in addition to IEC 60884-1".
SN 441011, until 2019 SEV 1011, is the Swiss national standard for AC power plug for domestic use and similar purposes. The plug SN 441011 Type 12 and the socket SN 441011 Type 13 are also known internationally as Type J, and fits in all Swiss sockets.
The IEC 62196 Type 3 connector is used for charging battery electric vehicles, mainly within France and Italy, as it was one of three AC plug standards described in IEC 62196-2. The Type 3 connector comes in two physical formats, Type 3A for single-phase (230V) and Type 3C for single- and three-phase (400V) alternating current (AC) power. Both have since been superseded by the Type 2 connector, the latter adopted as sole connector in 2013 by the European Union. The Type 1 connector is the corresponding AC connector standard used in North America, Japan, and South Korea.
It shall not be possible to operate a shutter by inserting a 2-pin plug into a 3-pin socket-outlet. Compliance shall be checked by the tests of 13.7.2. 13.7.2 Earth pin operated shutters and 3-pin operated shutters shall be deemed to comply with this requirement without testing. For other shutter designs, compliance shall be checked by the following test. A 2-pin plug complying with BS EN 50075 shall be applied to the socket line and neutral apertures with a force of 30 newton. The plug pins, when applied in any direction, shall not make contact with live parts.