AC power plugs and sockets: Difference between revisions

AC power plugs and sockets are devices for removably connecting electrically-operated devices to the commercial power supply.

An electric plug is a male electrical connector with contact prongs to connect mechanically and electrically to slots in the matching female socket.

Wall sockets, (sometimes also known as power points^[1][2], power sockets, electric receptacles, or electrical outlets) are female electrical connectors that have slots or holes which accept and deliver current to the prongs of inserted plugs. Sockets are designed to accept only matching plugs and reject all others.

The three contacts

Each receptacle has two or three wired contacts. The contacts may be steel or brass, and may be plated with zinc, tin, or nickel.

• The live wire (also known as phase, line, hot or active contact), carries alternating current from the source to the load.
• The neutral wire or "return" completes the circuit back to the power source. With alternating current there is technically no difference between the live and neutral, since current flows in both directions in rhythmic pulsations. Instead, it is so named because the neutral is connected to grounding rods, which serve to dissipate static electricity charge buildups that can shock users of the electrical devices, and so is at neutral voltage potential relative to the ground upon which the user stands. The neutral is generally safe and the hot is not safe because a person's body is capacitively coupled to the earth ground, even without direct skin to ground contact.
• The earth wire (known as ground in American English) is only intended to carry electric current when the connected equipment develops an insulation (safety) fault, and should otherwise never carry a current. It serves as a secondary safety neutral to provide a direct-shorting path to blow fuses or trip breakers, and is generally connected to metal cases and other parts of the equipment which may come into contact with humans. Electromagnetic interference filters and surge protectors dispose of unwanted electric charges via the earth wire. Not all systems use a ground connection.

Polarised plugs

Polarised plugs and sockets are those designed to connect only in the correct orientation, so the hot and neutral conductors in the connected equipment are connected to the hot and neutral poles of the outlet. Polarisation is maintained by the shape, size, and/or position of plug pins and socket holes to ensure that a plug fits only one way into a socket. This is so that switches, for example, interrupt the live wire of the circuit. If the neutral wire were interrupted instead, although the device would deactivate due to the opening of the electrical circuit, its internal wiring would still be energised. This can present a shock hazard if the device is opened, because the human body would create a circuit — a path to a voltage different from that of the live wire. In toasters and other appliances with exposed heat elements, reversed polarity can cause the elements to be electrically live even when they are cool to the touch, posing the risk of electrocution even if the device is not deliberately disassembled or otherwise tampered with.

Reverse polarity can also create a hazard with screw-in light bulbs, where the shell of the socket may be energized even though the lamp is switched off.

Interchange of the live and neutral wires in the behind-the-walls household wiring can defeat the safety purpose of polarised sockets and plugs; a circuit tester can detect swapped wires.

Terminology

There are substantial differences between American and British nomenclature related to power plugs and sockets.

In the United States, the live contact may be called live or hot. The neutral contact may be called cold, neutral, return, the grounded conductor, or (in the National Electrical Code), the identified conductor. The earth contact is called ground or the grounding conductor.

In the United Kingdom the word "line" is occasionally used to denote the live terminal or wire. In electrical engineering, the line voltage is that between the live conductors of the three-phase distribution system, while the phase voltage is that between live and neutral.

Live conductors are called phases when there is more than a single phase in use. Pins are also known as prongs, contacts,blades, or terminals.

In Australia, the live contact is called active.

History

When electricity was first introduced into the household, it was primarily used for lighting. At that time, many electricity companies operated a split-tariff system where the cost of electricity for lighting was lower than that for other purposes. This led to portable appliances (such as vacuum cleaners, electric fans, and hair driers) being connected to the light fitting.

However, as electricity became a common method of lighting houses and operating labour-saving appliances, a means of connection to the electric system other than using a light socket was needed. The original two blade electrical plug and socket were invented by Harvey Hubbell and patented in 1904.He left one socket hole bigger than the other, so that poeple would not electrocute themsleves by putting a plug upside down into a socket. Other manufacturers adopted the Hubbell pattern and by 1915 they were widespread, although in the 1920s and even later, household and light commercial equipment was still powered through cables connected with Edison screw-base adapters to lampholders. ^{[3] [4] [5]}

The three-prong plug was invented by Philip F. Labre, while he was attending the Milwaukee School of Engineering (MSOE). It is said that his landlady had a cat which would knock over her fan when it came in the window. When she plugged the fan back in, she would get an electric shock. Labre figured out that if the plug were grounded, the electricity would go to earth through the plug rather than his landlady. He applied for and was issued a patent for grounding receptacle and plug on June 5, 1928.^[6] As the need for safer installations became apparent, earthed three-contact systems were made mandatory in most industrial countries.

Proliferation of standards

During the first fifty years of commercial use of electric power, standards developed rapidly based on growing experience. Technical, safety, and economic factors influenced the development of all wiring devices and numerous varieties were invented. Gradually the desire for trade eliminated some standards that had been used only in a few countries. Former colonies may retain the standards of the colonising country, occasionally (as with the UK and a number of its former colonies) after the colonising country has changed its standard. Sometimes offshore industrial plants or overseas military bases use the wiring practices of their controlling country instead of the surrounding region. Hotels and airports may maintain receptacles of foreign standards for the convenience of travellers. In some countries there is no single national standard, with multiple voltages, frequencies and plug designs in use. This can create inconvenience and potential safety problems for users.

In recent years many countries have settled on one of a few de facto standards, although there remain older installations of obsolete wiring in most countries. Some buildings have wiring that has been in use for almost a century and which pre-dates all modern standards.

Many manufacturers of electrical devices like personal computers have adopted the practice of putting a single world-standard IEC connector on the device, and supplying for each country a power cord equipped with a standard IEC connector on one end and a national power plug at the other. The device itself is designed to adapt to a wide range of voltage and frequency standards. This has the practical benefit of reducing the amount of testing required for approval, and reduces the number of different product variations that must be produced to serve world markets.

World maps

There are two basic standards for voltage and frequency in the world. One is the North American standard of 110-120 volts at a frequency of 60 Hz, which uses plugs A and B, and the other is the European standard of 220-240 volts at 50 Hz, which uses plugs C through M. The differences arose for historical reasons as discussed in the article Mains electricity.

Countries on other continents have adopted one of these two voltage standards, although some countries use variations or a mixture of standards. The outline maps show the different plug types, voltages and frequencies used around the world,^[7] color-coded for easy reference.

Types in present use

Electrical plugs and their sockets differ by country in shape, size and type of connectors. The type used in each country is set by national standards legislation.^[8] In this article each type is designated by a letter designation from a U.S. government publication [1], plus a short comment in parentheses giving its country of origin and number of contacts. Subsections then detail the subtypes of each type as used in different parts of the world.

IEC Classes are assigned to electrical devices depending on whether or not they are earthed (grounded) and the degree of insulation they incorporate. Class I, for example, refers to earthed (grounded) equipment, while class II refers to unearthed (ungrounded) equipment protected by double insulation.

Special purpose sockets may be found in industrial, commercial or institutional buildings. These may be merely labeled or coloured, or may have different arrangements of pins or keying provisions. Some special-purpose systems are incompatible with general-purpose lighting and appliances. Examples of systems using special purpose sockets include:

• "clean" ground for use with computer systems,
• emergency power supply,
• uninterruptible power supply, for critical or life-support equipment,
• isolated power for medical instruments,
• "balanced" or "technical" power used in audio and video production studios,
• theatrical lighting

Depending on the nature of the system, special-purpose sockets may just identify a reserved use of a system (for example, computer power) or may be physically incompatible with utility sockets to prevent use of unintended equipment which could create electrical noise or other problems for the intended equipment on the line.

Type A

NEMA 1-15 (North American 15A/125V ungrounded)

Standardized by the U.S. National Electrical Manufacturers Association^[9] and adopted by 38 other countries, this plug with two flat parallel blades, is used in most of North America and on the east coast of South America on devices not requiring a ground connection, such as lamps and "double-insulated" small appliances. NEMA 1-15 sockets have been prohibited in new construction in the United States and Canada since 1962, but remain in many older homes and are still sold as replacement parts. Type A plugs are still very common because they are compatible with type B sockets.

Early designs could be inserted either way, but modern plugs are polarised by means of a neutral blade wider than the live blade so the plug can be inserted only the right way. Polarised type A plugs will not fit in unpolarised type A sockets, because both slots are narrow, but both unpolarised and polarised type A plugs will fit in polarised type A sockets and in type B sockets. Some devices that do not distinguish between neutral and live, such as sealed electronic power supplies, are still produced with unpolarised type A pins (both narrow).

JIS C 8303, Class II (Japanese 15A/100V ungrounded)

The Japanese plug and socket are identical to NEMA 1-15. However, the Japanese system incorporates stricter dimensional requirements for the plug housing, different marking requirements, and mandatory testing and approval by MITI or JIS.^[10]

Some older Japanese outlets and multiplug adapters are unpolarised — the slots in the sockets are the same size — and will accept only unpolarised plugs. Japanese plugs generally fit into most North American outlets without trouble, but polarised North American plugs may require adapters or replacement non-polarized plugs to connect to older Japanese outlets.

Japanese voltage is only 100 volts, and the frequency in eastern Japan is 50 rather than 60 Hz, so even those North American devices that can be plugged into a Japanese socket may not function correctly.

Type B

	File:P2050397.JPG
On the left is a North American grounded (earthed) plug, and in the center is a "Decora" style outlet. A more common style of NEMA 5-15 duplex outlet is shown on the right. This socket will also accept a polarised or unpolarised two-prong (non-earthed) plug. A GFI (Ground Fault Interrupter) outlet is similar but has "test" and "reset" buttons.

NEMA 5-15 (North American 15A/125V grounded)

The type B plug has two flat parallel blades like type A, but has a round or U-shaped earthing prong (American standard NEMA 5-15/Canadian standard CSA 22.2, _ 42).^[9] It is rated for 15 amperes at 125 volts. The ground pin is longer than the live and neutral blades, so the device is grounded before the power is connected. Sometimes both current blades on type B plugs are narrow since the ground pin enforces polarity.

The 5-15 socket is standard in all of North America (Canada, the United States and Mexico). It is also used in Central America, the Caribbean, northern South America (Colombia, Ecuador, Venezuela and part of Brazil), Japan, Taiwan and Saudi Arabia. Looking directly at a type B outlet with the ground at the bottom, the neutral slot is on the left, and the live slot is on the right. They may be installed with the ground at the top or on either side.

In some parts of the United States, tamper-resistant outlets are now required in new construction. These prevent contact by objects like keys or paper clips inserted into the receptacle. ^[11]

In the theater, this connector is sometimes known as PBG for "Parallel Blade with Ground", Edison or Hubbell, the name of a common manufacturer.

NEMA 5-20 (North American 20A/125V grounded)

In new residential construction since about 1992, a 20-amp receptacle with a T-slot for the neutral blade allows either 15-ampere parallel blade plugs or 20-ampere plugs to be used.

JIS C 8303, Class I (Japanese 15A/100V grounded)

Japan also uses a Type B plug similar to the North American one.^[10] However it is less common than its Type A equivalent.

Type C

(Not to be confused with the 3-blade C13 and C14 IEC connectors)

CEE 7/16 (Europlug 2.5A/250V unearthed)

This two-prong plug is popularly known as the Europlug. The plug is non-earthed and has two round 4 mm (0.16 in) pins, which usually converge slightly towards their free ends. It can be inserted into any socket that accepts 4 mm round contacts spaced 19 mm (0.75 in) apart. It is described in CEE 7/16.^[12] and is also defined in Italian standard CEI 23-5 and Russian standard GOST 7396

The Europlug is used in Class II applications throughout continental Europe (Austria, Belgium, Bosnia and Herzegovina, Bulgaria, Croatia, the Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Greenland, Hungary, Iceland, Italy, Latvia, Lithuania, Macedonia, the Netherlands, Norway, Poland, Portugal, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and Ukraine). It is also used in the Middle East, most of Africa, South America (Argentina, Brazil, Chile, Uruguay, Peru, and Bolivia), Asia (Bangladesh, Indonesia and Pakistan) as well as the former Soviet republics, and many developing nations. It is also used alongside the BS 1363 in many nations, particularly former British colonies.

This plug is intended for use with devices that require 2.5 amps or less. Because it is unpolarised, it can be inserted in either direction into the socket, so live and neutral are connected at random.

The separation and length of the pins allow its safe insertion in most CEE 7/17, French type E, Type H (Israeli 3-pin), CEE 7/4 (Schuko), CEE 7/7 and Type L (Italian 3-pin) outlets.

CEE 7/17 (German/French 16A/250V unearthed)

This plug also has two round pins but the pins are 4.8 mm (0.19 in) in diameter like types E and F and the plug has a round plastic or rubber base that stops it being inserted into small sockets intended for the Europlug. Instead, it fits only into large round sockets intended for types E and F. The base has holes in it to accommodate both side contacts and socket earth pins. It is used for large appliances, and in South Korea for all domestic non-earthed appliances. It is also defined in Italian standard CEI 23-5.

BS 4573 (UK shaver)

In the British Isles, there is what appears to be a larger version of the type C plug for use with shavers (electric razors) in bath or shower rooms.^[13] In fact it was not derived from the type C plug at all, but was a legacy from the obsolete 2 pin 5 amp plug used in Britain in the 1920s and 1930s but still prevalent, especially in bathrooms, as late as the 1960s. It has 0.2 in (5.08 mm) diameter pins 5⁄8 in (15.88 mm) apart, and the sockets for this plug are often designed to accept unearthed CEE 7/16, US and/or Australian plugs as well. Sockets are often able to supply either 230V or 115V. In wet zones, they must contain an isolation transformer compliant with BS 3535.

Variations in sockets

Some Type C sockets can only take 4 mm (0.16 in) pins or have plastic barriers in place to prevent Schuko or French plugs from entering. However, many can take 4.8 mm (0.19 in) pins and have enough room for a round-body Schuko or French plug to be inserted, with an unsafe result.

Type D

BS 546 (5A/250V earthed)

India and Pakistan have standardised on a plug which was originally defined in British standard BS 546. It has three large round pins in a triangular pattern. The BS 546 standard is also used in parts of the Middle East (Kuwait, Qatar) and parts of Asia and South East Asia that were electrified by the British. This type was also previously used in South Africa, but has been phased out in favour of the 15A version there. Similarly, in Ghana, Kenya, and Nigeria, the plug has been mostly replaced by the British 3-pin (Type G). This 5A plug, along with its 2A cousin, is sometimes used in the UK for centrally switched domestic lighting circuits, in order to distinguish them from normal power circuits.

BS 546 (15A/250V earthed)

This plug is sometimes referred to as type M, but it is in fact merely the 15A version of the plug above, though its pins are much larger at 7.05 by 21.1 mm (0.28 by 0.83 in). Live and neutral are spaced 1 in (25.4 mm) apart, and earth is 1+1⁄8 in (28.6 mm) away from each of them. Although the 5A version is standard in India, Pakistan, Sri Lanka, Nepal, and Namibia, the 15A version is also used in these countries for larger appliances. Some countries like South Africa use it as the main domestic plug and socket type, where sockets always have an on–off switch built into them. The Type M was almost universally used in the UK and Ireland for indoor dimmable theatre and architectural lighting installations, but there is now a widespread move to using CEE 16A industrial sockets in new installations. It was also often used for non-dimmed but centrally controlled sockets within such installations. The main reason for doing this is that fused plugs, while convenient for domestic wiring (as they allow 32A socket circuits to be used safely), are not convenient if the plugs and sockets are in hard-to-access locations (like lighting bars) or if using chains of extension cords since it is hard to figure out which fuse has blown. Both of these situations are common in theatre wiring. This plug is also widely used in Israel, Singapore, and Malaysia for air conditioners and clothes dryers.

Type E

French type E

France, Belgium, Poland, Czech Republic, Slovakia (after 1 July 2008 also Denmark) and some other countries have standardised on a socket which is not compatible with the CEE 7/4 socket (type F) standard in Germany and other continental European countries. The reason for incompatibility is that earthing in the E socket is done by a round male pin permanently mounted in the socket. Sockets are installed with the earth pin upwards. The plugs and sockets are not marked with 'L' and 'N'. Wiring of line and neutral varies. In Belgium they are connected at random, no standard is observed. In France the de facto standard appears^[who?] to be live on the right, neutral on left when looking at the socket. In the Czech republic and Slovakia, the live wire must be connected to the left hole in the socket. The plug itself is round with two round pins measuring 4.8 by 19 mm (0.19 by 0.75 in), spaced 19 mm apart and a hole for the socket's earth pin. It will accept Europlug(type C) and CEE 7/17 plugs.

As with the German plug below this plug will fit some other types of socket either easily or with force. However, there is no earth connection with such sockets. Also in some cases forcing the plug may damage the socket.

Type F

CEE 7/4 (German "Schuko" 16A/250V earthed)

The type F plug, defined in CEE 7/4 and commonly called a "Schuko plug", is like type E except that it has two earthing clips on the sides of the plug instead of a female earth contact. The Schuko connection system is symmetrical and unpolarised, allowing live and neutral to be reversed. The socket also accepts Europlugs and CEE 7/17 plugs. It supplies up to 16Amperes. It is used in Germany, Iceland, Finland, Chile, the Netherlands, Norway, Portugal, Spain and Sweden.

"Schuko" is an abbreviation for the German word Schutzkontakt, which means "Protective (that is, earthed) contact".

Although Schuko sockets are unpolarised by design, a de facto standard in most countries is to wire them like the French sockets with live on left and neutral on right, but it is not always observed.^{[citation needed]}

Gost 7396 (Russian 10A/250V earthed)

Russian Standard Gost 7396 defines a plug and receptacle similar to the Schuko, but with smaller pins of 4 mm (0.16 in) diameter, rated at 10 amps. A Gost 7396 will fit a Schuko receptacle, but the reverse is not possible since the Schuko and CEE 7/17 plugs pins are too large. This socket also accepts Europlugs.

After reunification, the former East Germany adopted the same DIN and VDE standards as West Germany. Most Eastern European countries used the Schuko standard, but exported appliances with the Soviet standard plug. ^[14]

Type E / F hybrid

CEE 7/7 (French/German 16A/250V earthed)

In order to bridge the differences between sockets E and F, the CEE 7/7 plug was developed. It is polarised to prevent the live and neutral connections from being reversed when used with a type E outlet, but allows polarity reversal when inserted into a type F socket. The plug is rated at 16A. It has earthing clips on both sides to connect with the CEE 7/4 socket and a female contact to accept the earthing pin of the type E socket. It's also used in Spain and Portugal. Nowadays, when appliances are sold with type E/F plugs attached, the plugs are CEE 7/7 and non-rewirable. This means that the plugs are now identical between countries like France and Germany, but the sockets are different.

Type G

BS 1363 (British 13A/230-240V 50 Hz earthed and fused)

The British Standards 1363 plug. ^[15] This design is used not only in the British Isles, but also in Sri Lanka, Bahrain, UAE, Qatar, Yemen, Oman, Cyprus, Malta, Gibraltar, Botswana, Ghana, Hong Kong, Macau, Brunei, Malaysia, Singapore, Indonesia, Kenya, Uganda, Nigeria, Mauritius, Iraq, Tanzania and Zimbabwe. BS 1363 is also standard in several of the former British Caribbean colonies such as Belize, Dominica, St. Lucia, Saint Vincent and the Grenadines and Grenada. It is also used in Saudi Arabia in 230V installations although 110V installations using the NEMA connector are more common.

This plug, commonly known as a "13-amp plug", is a large plug that has three rectangular prongs forming a triangle. Live and neutral are 4 by 6 mm (0.16 by 0.24 in), 18 mm (0.71 in) long, and spaced 22 mm (0.87 in) apart. 9 mm (0.35 in) of insulation at the trailing ends of the prongs prevents accidental contact with a bare connector while the plug is partially inserted. The earth prong is approximately 4 by 8 mm (0.16 by 0.31 in) and 23 mm (0.91 in) long.

The plug has a fuse inside. The fuse is required to protect the cord, as British wiring standards allow very high-current ring main circuits to the socket. Accepted practice is to choose the smallest standard fuse (3, 5, or 13A) that will allow the appliance to function. Using a 13 A fuse on an appliance with thin cord is considered bad practice. The fuse is 1 in (25.40 mm) long, conforming to standard BS 1362.

UK wiring regulations (BS 7671) require sockets in homes to have shutters over the live and neutral connections to prevent the insertion of objects other than electric plugs. These are opened by the insertion of the longer earth prong. The shutters also help prevent the use of plugs made to other standards. On plugs for Class II appliances that do not require an earth, the pin is often plastic and serves only to open the shutters and to enforce the correct orientation of live and neutral. It is generally possible to open the shutters with a screwdriver blade to insert a Type C Plug (but not the BS 4573 UK shaver) or other plug types, but this can be dangerous for such plugs will not have a fuse and will often not fit properly.

BS 1363 plugs and sockets started appearing in 1946 and BS 1363 was first published in 1947. By the end of the 1950s, it had replaced the earlier type D BS 546 in new installations, and by the end of the 1960s, most earlier type D installations had been rewired to BS 1363 standards. Outlets usually include switches on them for convenience.

Type H

SI 32 (Israeli 16A/250V earthed)

This plug, defined in SI 32 (IS16A-R), is unique to Israel and is incompatible with all other sockets. It has three flat pins to form a Y-shape. Hot and neutral are spaced 19 mm (0.75 in) apart. The Type H plug is rated at 16A but in practice the thin flat pins can cause the plug to overheat when connecting large appliances.^{[citation needed]} In 1989, the standard was revised to use three round 4 mm (0.16 in) pins in the same locations. Sockets made since 1989 accept both flat and round pins for compatibility with both old and new plugs. This also allows the Type H socket to accommodate the type C plugs used in Israel for non-earthed appliances. Older sockets, from about the 1970s,^[vague] have both flat and round holes for live and neutral in order to accept both Type C and Type H plugs. As of 2008, type H sockets which accept only old-style type H plugs are very rare in Israel.

This plug is also used in the areas controlled by the Palestinian National Authority in the West Bank and all of the Gaza Strip.

Type I

AS 3112 (Australian 10A/240V)

This plug, used in Australia, New Zealand, Fiji and Papua New Guinea, has an earthing pin, and two flat current-carrying pins forming an upside down V-shape.^[16] The flat blades measure 6.5 by 1.6 mm (0.26 by 0.06 in) and are set at 30° to the vertical at a nominal pitch of 13.7 mm (0.54 in). Australian wall sockets almost always have switches on them for extra safety, as in the UK. An unearthed version of this plug with two angled power pins but no earthing pin is used with small double-insulated appliances, but the power (wall) outlets always have three pins, including an earth pin.

There are several AS/NZS 3112 plug variants,^[17] including one with a wider earth pin used for devices drawing up to 15 amps; sockets supporting this pin will also accept 10A plugs. There is also a 20A variant, with all three pins oversized, and 25 and 32A variants, with the 20A larger pins and the earthing pin forming an inverted "L" for the 25A and a horizontal "U" for the 32A. These sockets accept plugs of equal or of a lower current capacity, but not of higher capacity. For example, a 10A plug will fit all sockets but a 20A plug will fit only 20, 25 and 32A outlets).

Australia's standard plug/socket system was originally codified as standard C112 (floated provisionally in 1937, and adopted as a formal standard in 1938), which was superseded by AS 3112 in 1990. As of 2005, the latest major update is AS/NZS 3112:2004, which mandated insulated pins^[18] by 2005. However, equipment and cords made before 2003 can still be used.

CPCS-CCC (Chinese 10A/250V)

Although the pins on the Chinese plug are 1 mm (0.04 in) longer, the Australian plug can be used with mainland Chinese socket. The standard for Chinese plugs and sockets is set out in GB 2099.1–1996 and GB 1002–1996. As part of China's commitment for entry into the WTO, the new CPCS (Compulsory Product Certification System) has been introduced, and compliant Chinese plugs have been awarded the CCC (China Compulsory Certification) Mark by this system. The plug is three wire, earthed, rated at 10A, 250V and used for Class 1 applications.

In China, the sockets are installed upside-down relative to the Australian one.

China also uses American/Japanese "Type A" sockets and plugs for Class-II appliances. However, the voltage across the pins of a Chinese socket will always be 220, no matter what the plug type.

IRAM 2073 (Argentinian 10A/250V)

The Argentinian plug is a three-wire earthed plug rated at 10A, 250V defined by IRAM and used in Class 1 applications in Argentina and Uruguay.

This plug is similar in appearance to the Australian and Chinese plugs. The pin length is same as the Chinese version. The most important difference from the Australian plug is that the Argentinian plug is wired with the live and neutral contacts reversed.

Type J

SEV 1011 (Swiss 10A/250V)

Switzerland has its own standard which is described in SEV 1011. (ASE1011/1959 SW10A-R) This plug is similar to the type C europlug (CEE 7/16), except that it has an earth pin off to one side. Swiss sockets can take Swiss plugs or Europlugs (CEE 7/16). This connector system is rated for up to 10 amperes. There is also a less common variant with 3 square pins rated for 16A. Above 16A, equipment must either be wired permanently to the electrical supply system with appropriate branch circuit protection, or connected to the mains with an appropriate high power industrial connector.

Switzerland also has a two-pin plug, with the same pin shape, size and spacing as the SEV 1011's live and neutral pins, but with a more flattened hexagonal form. It fits into both Swiss sockets (round and hexagonal) and CEE 7/16 sockets, and is rated for up to 10A.

Type K

Section 107-2-D1 (Danish 10A/250V earthed)

This Danish standard plug is described in the Danish Plug Equipment Section 107-2-D1 Standard sheet (SRAF1962/DB 16/87 DN10A-R). The plug is similar to the French type E except that it has an earthing pin instead of an earthing hole (and vice versa on the socket). This makes the Danish socket more unobtrusive than the French socket which is a cavity into the wall to protect the earthing pin from mechanical damage (and to protect from touching the live pins).

The Danish socket will also accept the type C CEE 7/16 Europlug or type E/F CEE 7/17 Schuko-French hybrid plug. Type F CEE 7/4 (Schuko), type E/F CEE 7/7 (Schuko-French hybrid), and earthed type E French plugs will also fit into the socket but should not be used for appliances that need earth contact. The current rating on both plugs is 10A.

A variation (standard DK 2-5a) of the Danish plug is for use only on surge protected computer outlets. It fits into the corresponding computer socket and the normal type K socket, but normal type K plugs deliberately don't fit into the special computer socket. The plug is often used in companies, but rarely in private homes.

There is a variation for hospital equipment with a rectangular left pin, it is used for life support equipment.

Traditionally all Danish sockets were equipped with a switch to prevent touching live pins when connecting/disconnecting the plug. Today, sockets without switch are allowed, but then it is a requirement that the sockets have a cavity to prevent touching the live pins. However, the shape of the plugs generally makes it difficult to touch the pins when connecting/disconnecting.

Since the early 1990s grounded outlets have been required in all new electric installations in Denmark. Older outlets need not be grounded, but all outlets, including old installations, must be protected by ground-fault interrupters (HFI in Danish) by 1 July 2008.

As of 1 July 2008, wall outlets for type E (French 2-pin, female earth) are permitted for installations in Denmark ^[19]. This was done because no electrical equipment sold to private users is equipped with a type K plug, and to break the monopoly of Lauritz Knudsen — the only company making type K sockets and plugs.

Sockets for the Schuko F type will not be permitted. The reason is that a large number of currently used Danish plugs will jam when inserted into a Schuko socket. This may cause damage to the socket. It may also result in a bad connection of the pins, with resultant risk of overheating and fire. Broken type F sockets are often seen in German hotels visited by Danes.^{[citation needed]} Many international travel adapter sets sold outside Denmark match type C CEE 7/16 (Europlug) and type E/F CEE 7/7 (Schuko-French hybrid) plugs which can readily be used in Denmark.

Type L

CEI 23-16/VII (Italian 10A/250V and 16A/250V)

The Italian earthed plug/socket standard, CEI 23-16/VII, includes two models rated at 10A and 16A that differ in contact diameter and spacing (see below for details). Both are symmetrical, allowing the live and neutral contacts to be inserted in either direction.

The double standard was initially adopted because in Italy, up to the second half of the twentieth century, the electric power used for lamps (Luce = lighting) and the one used for all other appliances (Forza = electromotive force; or Uso Promiscuo = general purpose) were sold at different fares, charged with different taxes, accounted with separated electricity meters, and sent on different wire lines that ended with different sockets.^[20] Even though the two electric lines (and respective fares) were definitively unified during the summer of 1974^[21] many houses kept twin wires and twin electricity meters for years thereafter. The two gauges for plugs and sockets thus became a de facto standard which is still in use today and has been standardized with CEI 23-16/VII. Older installations often have sockets that are limited to either the 10A or the 16A style plug, requiring the use of an adapter if the other gauge needs to be connected.

CEE 7/16 (type C) unearthed Europlugs are also in common use; they are standardized in Italy as CEI 23-5 and fit most of the appliances with low current requirement and double insulation.

Appliances with CEE 7/7 Schuko-French plugs are often sold in Italy too; however not every socket will accept them since the pins of the CEE 7/7 Schuko-French plugs are thicker than the Italian ones. Adapters are cheap and commonly used to connect CEE 7/7 plugs to CEI 23-16/VII sockets, though the power rating may be mismatched (16A to 10A) and may lead to potentially unsafe connection in some cases.

CEI 23-16/VII (Italian 10A/250V)

The 10 ampere style extends CEE 7/16 by adding a central earthing pin of the same gauge. Thus, CEI 23-16-VII 10A sockets can accept CEE 7/16 Europlugs. This is the plug shown in the first picture.

CEI 23-16/VII (Italian 16A/250V)

The 16 ampere style looks like a magnified version of the 10A style, identical in shape. However, the pins are 5 millimetres thick (being 4 mm thick in 10A type), 8 mm apart (while 5.5 mm apart in 10A type) and 7 mm longer. The packaging of these plugs in Italy may claim they are a "North European" type. In the past they were also referred to as per la forza motrice^[22] (for electromotive force, see above) or sometimes industriale (industrial), although the latter has never been a correct definition as factories used preminently three-phase current and specialized connectors.

Twin-gauge or multi-type sockets

Given that the plug with which appliances are fitted and sold varies, in modern installations in Italy (and in other countries where type L plugs are used) it is likely to find sockets that can accept more than one standard. The simpler type has a central round hole and two 8-shaped holes above and below. This design allows the connection of both styles of type L plugs (CEI 23-16/VII 10A and 16A) and the type C CEE 7/16 Europlug. The advantage of this socket style is its small, compact face. VIMAR brand claims to have patented this socket first in 1975^[23] with their Bpresa™ model; however soon other brands started selling similar products mostly naming them with the generic term presa bipasso (twin-gauge socket) that is now of common use.

A second, quite common type looks like a type F socket, but adds a central grounding hole. This design can accept CEE 7/7 (type E/F) plugs, in addition to type C and type L 10A plugs. Some of these sockets may also have 8-shaped holes to accept type L 16A plugs as well. Its drawback is that it’s twice as large as a normal type L socket.

Other types may push compatibility even further. The VIMAR-brand universale (all purpose) socket, for example, accepts CEE 7/7 (type E/F) plugs, type C plugs, both 10A and 16A type L plugs, and American/Japanese type A plugs as well.

Other countries

Outside of Italy, type L CEI 23-16/VII (Italian 10A/250V) plug is found in Syria, Libya, Ethiopia, Chile, Argentina, Uruguay, various countries in North Africa, and occasionally in older buildings in Spain.

In Chile, domestic electrical installations will have several type L 10A plugs and just a few type L 16A plugs, the latter meant for higher consumption appliances, like a washing machine, a dishwasher or air conditioning; each set of plugs are connected to separate fuses. In some cases, Schuko plugs are used as high consumption outlets instead of type L 16A plugs.

Type M

BS 546 (South African 15A/250V)

Type M is sometimes used to describe the 15A version of the old British type D, used in South Africa and elsewhere.

Proposed common standard

IEC 60906-1 (Brazilian 16A/250V)

In 1986, the International Electrotechnical Commission published IEC 60906-1, the specification for a plug that looks similar but is not identical to the Swiss (Type J) plug. This plug was intended to become one day the common standard for all of Europe and other regions with 230V mains, but the effort to adopt it as a European Union standard was put on hold in the mid 1990s.^[24] Brazil, which uses a mix of Europlug and NEMA plugs, later adopted it as national standard NBR 14136 in 2001^[25]. It has been planned for gradual adoption starting in 2007 and ending in 2010 (end-user stores and resellers can sell equipments without adoption deadlines, but importers will not be allowed to bring unconforming devices, nor manufacturers will be able to sell them locally).

Multi-standard sockets

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Sockets that take a variety of normally-incompatible plug types can be found in developing countries where electrical standards are either lacking or unenforced. These sockets may accept both 120V and 240V plugs, so there is no safeguard against devices being damaged by the wrong voltage. Sometimes these sockets have one or more earth holes to allow 3-pin plugs, but the earth contact may not actually be connected to earth and in any event will not necessarily mate with the plug's earth contact, as in the case of Schuko or French plugs with female earth contacts. Great care must be taken to avoid incompatible voltage and earthing connections when using such outlets. Devices designed to adapt automatically to whatever voltage and frequency is supplied, and which don't require earthing, are generally safe to use with these sockets.

Adapters

To facilitate travellers' use of personal electric devices, adaptors are available to permit the interconnection of normally-incompatible plugs and sockets. Such adaptors overcome only the physical incompatibilities between plugs and sockets built to different standards; often a voltage converter is required for electrical compatibility.

Obsolete types

Old Spanish sockets

Left: Spanish three-prong plug and socket, with easily removable fuse) Right: An adapter to allow types C and F to be inserted

Older buildings in Spain may have sockets that take a particular type of plug that has two flat contacts and a round earth pin, somewhat similar to the ones found on American plugs.

The live and neutral measure 9 by 2 mm (0.35 by 0.08 in), and are 30 mm (1.18 in) apart. All three pins are 19 mm (0.75 in) long, and the earth pin is a cylinder of 4.8 mm (0.19 in) diameter.

While the plug resembles an American connector, the two flat contacts are much wider apart than on a standard American plug, which will therefore not fit in these sockets.

In Spain, these are referred to as American plugs, and the general public believes they are from America.^{[citation needed]} No appliances are sold with these plugs. Adapters are necessary.

UK electric clock connector

Fused plugs and sockets of various proprietary and non-interchangeable types are found in older public buildings in the UK, where they are used to feed AC electric wall clocks. They are smaller than conventional socket outlets, commonly being made to fit BESA junction boxes, and are often of very low profile. Early types were available fused in both poles, later types fused in the live only and provided an earth pin. Most are equipped with a retaining screw or clip to prevent accidental disconnection. The prevalence of battery powered quartz controlled wall clocks has meant that this connector is rarely seen in new installations.

American "Type I"

Left: American Type I duplex outlet, made by Hubbell Middle: Compatibility of American and Australian Type I plugs Right: Eagle brand adapter, 2-prong Type A outlet to a 3-prong Type I plug

The American electrical supply manufacturers Hubbell, Eagle, and possibly others made outlets and plugs that would match Type I plugs and sockets exactly. Type I connectors are used in Australia for 240V service. These American outlets date back to the 1930s to the early 1950s, and predated the American 3 prong Type B sockets and plugs. These were meant for appliances that needed earthing, 120V at 15 amps, and to be used in laundry rooms for washing machines and gas dryers (to power the motor). These did not become popular for the obvious reason that American type A 2-prong plugs would not fit.

U.S. perpendicular outlet

Another obsolete outlet, made by Bryant, 125V 15A and 250V 10A rating. A NEMA 5-20 125V 20A or 6-20 250V 20A plug with a missing ground pin would fit this outlet, but a NEMA 2-20 plug is slightly too big to fit.

The upper slots as seen in the illustration connect to silver-coloured wiring screws on the upper side, and the lower slots connect to brass-coloured wiring screws on the lower side.

In Australia, the same or similar T-configuration sockets are used for DC power outlets, such as in Stand-alone Power Systems (SAPS) or on boats. For this use, the horizontal slot is on top and is positive.

U.S. Combination duplex outlet

Left: A parallel and tandem duplex outlet,   Right: T slot duplex outlet

The black parallel and tandem outlet shown here is extremely old. The brand name looks to be "Nurpolian", and also says "250V 10A", though it was normally supplied with 120V. It accepts normal parallel NEMA 1-15 plugs and also tandem NEMA 2-15 plugs. Both plugs are fed internally by the same supply.

A newer and fairly common version of this is the T-slot outlet. The locations of the tandem and the parallel slots were combined to create T-shaped slots. This version also accepts normal parallel NEMA 1-15 plugs and also tandem NEMA 2-15 plugs, and a NEMA 5-20 (125V, 20A) or 6-20 (250V, 20A) plug with a missing earth pin would fit this outlet. These went out of production sometime in the late '50s or early '60s.^[vague]

U.K. Dorman & Smith (D&S)

The D&S plugs and sockets were rated at 13 Amps and were possibly the earliest of the three competing sockets for use on ring main circuits^{[citation needed]}. They were never popular in private houses but were widely deployed in prefabricated houses and council housing. The BBC also used them. D&S supplied the sockets to local authorities at very low cost, with the intention of making money out of the sales of plugs typically priced at 4 times the price of a type G plug. It is not known exactly when D&S ceased manufacturing the plugs and sockets but some local authorities continued to use them in new installations until the late 1950s. Many D&S sockets were still in use until the early 1980s, although the difficulty in obtaining plugs for them after around 1970 often forced their users to replace them with type G sockets. This generally violated local authority regulations on alterations to council housing.^{[citation needed]} The D&S plug suffered from a serious design fault: the live pin was a fuse which screwed into the plug body and tended to come unscrewed on its own in use. A fuse that worked loose could end up protruding from the socket, electrically live and posing a shock hazard, when the plug was removed.

U.K. Wylex Plug

The Wylex plugs and sockets were produced by Wylex Electrical Supplies Ltd. as a competitor to the type G and D&S sockets for use on ring main circuits. The plugs were available in both 5A and 13A versions, differing only by the widths of the live and neutral pins, and contained an internal fuse of the same rating as the plug. A plug had a central round earth pin and two flat pins, one on each side of the earth pin, for live and neutral. The two flat pins were slightly offset above and below the line cutting through the horizontal diameter of the earth pin. Wall sockets were rated at 13 Amps and took both 5A and 13A plugs. Many 13A plugs had a socket on the back which took a 5A plug, but would not take another 13A plug because the slots for the live and neutral pins were narrower than those of the wall sockets, resulting in a stacked arrangement. Wylex sockets were used in council housing and public sector buildings, and for a short while in private housing. They were particularly popular in the Manchester area although they were installed throughout England, mainly in schools, university accomodation, and government laboratories. Wylex plugs and sockets continued to be manufactured for several years after type G sockets became standard and were commonly used by banks and in computer rooms during the 1960s and 70s for uninterruptible power supplies or "clean" filtered mains supplies. It is not known exactly when Wylex ceased manufacturing the plugs and sockets, but plugs were still being sold in electrical shops in the Manchester area during the early 1980s.^{[citation needed]}

Lampholder plug

A lampholder plug fits into the Bayonet cap or Edison screw socket of a lampholder in place of a light bulb and enables an electrical appliance to be powered from a wall or ceiling light fitting. They were commonly used during the 1920s to 1960s when wall sockets were scarce or nonexistent in many houses. Lampholder plugs were rarely fused.

Conventional practice in the U.K. is to protect lighting circuits with a 5A fuse or circuit breaker, which makes it very easy to overload a lampholder and cause it to overheat by using a lampholder plug. Wiring regulations in the U.K. and some other countries no longer approve lampholder plugs because of the risks of overheating and fire.

In Italy, bypass lampholder plugs with Edison screw mount were in broad use until light wire cables were separated from general purpose wire cables (see type L paragraph for details) and some areas of the house (cellars, etc.) were commonly not provided with sockets.

Unusual types

NEMA 2-15 and 2-20

These non-earthed plugs with two flat parallel prongs are variants of the 1-15 but are intended to deliver 240 volts instead of 120. The 2-15 has coplanar current prongs (rotated 90° from ordinary American plugs), and is used for 240V service at 15 amperes, while the 2-20 has the two current prongs rotated 90° relative to each other (one vertical, one horizontal) and is used for 240V service at 20 amperes. NEMA 2 plugs and sockets are rare because they have been prohibited for household use in the United States and Canada for several decades. They are potentially hazardous since they have no ground or neutral, and in some cases plugs can be inserted into incorrect-voltage sockets. Prior to the adoption of the NEMA standard, a plug nearly identical to the 2-20 was used for 120V at 20A. A 2-20 plug would fit into 5-20 and 6-20 sockets, which supply different voltages.

U.K. Walsall Gauge plug

Walsall Gauge 13 A plug (bottom) compared to regular BS 1363 plug

Unlike the standard BS 1363 plugs found in the U.K., the earth pin is on a horizontal axis and the live and neutral pins on a vertical axis. This style of plug/socket was used by the BBC, and is still in use on parts of the London Underground for low voltage power supply.

See also

• DC connector
• Double insulated
• IEC connector
• Electricity
• Electric power
• Extension cable
• Ground and neutral
• Industrial and multiphase power plugs and sockets
• List of countries with mains power plugs, voltages and frequencies
• Polyphase system
• Power connector
• Power cord
• Power strip
• Single-phase electric power
• Split-phase electric power
• Two-phase electric power (compare to split-phase)
• Three-phase electric power
• Telephone plugs
• Wall wart

External links

Wikibooks has a book on the topic of: Guide to electrical equipment for travellers

• International power cords technology
• IEC Zone: Plugs and sockets
• AC Power Cords
• Glossary of standards terms
• Steve Kropla's World Electric Guide
• Change to UK electrical wire colors 2004
• Household electrical safety handbook, Electrical and Mechanical Services Department, Hong Kong Special Administrative Region Government
• IEEE history of Australian power connectors (in MS Word format)
• Information on the electrical systems in use in most countries of the world
• Pictures and dimensions of various plug types
  • Ungrounded plugs
  • Grounded plugs
• IEC High temperature plugs
• South Africa Eskom - Wiring a Plug
• Diagrams of Adapter Plugs

References

• IEC 60906-1 defines standard 230V plugs
• IEC 60906-2 defines standard 115 V plugs
• IEC 60906-3 defines standard 4-48 V low-voltage plugs
• Guidance Notes for the Electrical Products (Safety) Regulation (Electrical and Mechanical Services Department, Hong Kong)