List of plug standards

List of plug standards

The two most common standards in the world are voltage and frequency. One of them is the American standard 110-127 Volt 60 Hertz, together with plugs A and B. The other standard is the European standard, 220-240 Volt 50 Hertz, plugs types C - M.

Most countries have adopted one of these two standards, although transitional or unique standards are sometimes found. On the map we can see in which countries certain standards are used.

Voltage/Frequency.

Types of forks.

Types currently in use

Electrical plugs and sockets vary from country to country in shape, size, maximum current rating, and other features. The type used in each country is fixed by law by the adoption of national standards. In this article, each type is designated by a letter from a US government publication.

Type A

Non-polarized Type A plug

NEMA 1-15 (North American 15 A/125 V, ungrounded), according to GOST 7396.1-89 - type A 1-15

Unusual American 5-socket Type A block, circa 1928

This type of plug and receptacle, with two flat parallel non-coplanar (not in the plane of the plug body) blades and slots, is used in most North American countries and on the east coast of South America, with devices that do not require grounding, such as lamps and small devices with double isolation. This type is accepted by 38 countries outside North America and standardized in the United States by the National Electrical Manufacturers Association (NEMA). NEMA 1-15 receptacles have been banned in new buildings in the United States and Canada since 1962, but remain in many older homes and still being sold for repairs. Type A plugs are still very common because they are compatible with Type B sockets.

Originally, the pins of the plug and the slot of the socket were the same height, and the plug could be inserted into the socket in any orientation. Modern plugs and sockets are polarized with a wider neutral contact so that the plug can only be inserted the correct way. Polarized Type A plugs will not fit into non-polarized Type A receptacles because both slots in the receptacle are equally narrow. However, both non-polarized and polarized Type A plugs fit into a polarized Type A receptacle and a Type B receptacle. Some devices that do not care about the location of the live and neutral wires, such as sealed power supplies, are still manufactured with non-polarized Type A plugs (both blades are narrow ).

Japanese socket with grounding plug, for washing machine.

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

The Japanese plug and socket are identical to NEMA 1-15 type. However, Japan has stricter fork body sizing requirements, different labeling requirements, and requires mandatory testing and approval by the Ministry of International Trade and Industry (MITI) or JIS.

Many Japanese sockets and extension cords are non-polarized—the slots in the sockets are the same size—and only accept non-polarized plugs. Japanese plugs will generally fit most North American outlets without issue, but polarized North American plugs may require an adapter or replacement to fit into older Japanese outlets. However, the mains voltage in Japan is 100V, and the frequency in the east is 50Hz rather than 60Hz, so North American devices can be connected to the Japanese network, but proper operation is not guaranteed.

Type B

A type B fork has, in addition to parallel flat blades, a round or letter-shaped blade U grounding terminal (US NEMA 5-15/Canadian CSA 22.2, _ 42). It is rated for a current of 15 Amps and a voltage of 125 Volts. The grounding contact is longer than the phase and neutral contacts, which means that the grounding connection is guaranteed before the power is turned on. Sometimes both power pins in Type B plugs are narrow because the ground pin prevents the plug from being plugged in incorrectly, but the slots in the socket are different sizes to allow Type A plugs to be plugged in correctly. If the ground pin is at the bottom, the phase will be on the right.

The 5-15 socket is the standard throughout North America (Canada, USA and Mexico). True, Mexico also uses Japanese-style sockets. The 5-15 socket is also used in central America, the Caribbean, northern South America (Colombia, Ecuador, Venezuela and parts of Brazil), Japan, Taiwan and Saudi Arabia.

In some parts of the US, new buildings are now required to install electrical outlets with protective curtains to prevent foreign objects from being inserted into them.

A 5-20R receptacle with a neutral T-slot installed with the ground pin facing up.

In theaters this connector is sometimes called PBG(Parallel Blade with Ground, parallel knives with the ground), Edison or Hubbell, by the name of the main manufacturer.

NEMA 5-20 (North American 20 A/125 V, grounded) according to GOST 7396.1-89 - type A 5-20

In new residential areas, since about 1992, 20-amp T-slot receptacles accept both 15-amp parallel-blade plugs and 20-amp plugs.

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

Japan also uses a Type B plug, similar to the North American one. However, it is less common than its type A equivalent.

Type C

Plug and socket CEE 7/16

(Not to be confused with three-pin IEC connectors C13 and C14)

CEE 7/16 (Europlug (Europlug) 2.5 A/250 V, without grounding), according to GOST 7396 .1-89 - type C5 option II

For more information on this topic, see: Europlug.

This two-pin plug is known in Europe as Europlug (Europlug, not to be confused with Schuko, which is called Europlug in Russia). The plug is not grounded and has two 4mm round prongs that usually meet slightly towards their free ends. It can be inserted into any socket that accepts 4mm diameter round pins spaced 19mm apart. It is described in CEE 7/16 and also defined in the Italian standard CEI 23-5 and the Russian standard GOST 7396.

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

This plug is designed for a current of 2.5 A. Since it is non-polarized, it can be inserted into the socket in any position, so the phase and neutral are connected randomly.

The spacing and length of the pins allow it to be safely plugged into most sockets CEE 7/17, type E (French), type H (Israeli), CEE 7/4 (Schuko), CEE 7/7, type J (Swiss), type K ( Danish) and type L (Italian).

Fork CEE 7/17

CEE 7/17 (German-French 16 A/250 V, ungrounded), according to GOST 7396.1-89 - type C6

This plug also has two round prongs, but they are 4.8mm in diameter, like the E and F types. The plug has a round plastic or rubber base that prevents it from being plugged into the small Europlug sockets. The plug fits only into large round sockets for types E and F. The plug has both a hole for the grounding pin and contact strips for the side contacts. The plug is used in conjunction with class II devices designed for high operating current (vacuum cleaners, hair dryers), and in South Korea - with any household appliances that do not require grounding. It is also defined in the Italian standard CEI 23-5. Can be inserted into an Israeli H-type socket, although this is not recommended as they are designed for smaller diameter pins.

Hybrid E/F type

CEE 7/7 plug

CEE 7/7 (French-German 16 A/250 V, with grounding), according to GOST 7396.1-89 - type C4

To be compatible with types E and F, a CEE 7/7 plug has been developed. It is polarized when used with a type E socket, but in type F sockets the connection between the phase and neutral wires is not observed. The plug is rated for 16 A. It has grounding clamps on both sides for connection to a CEE 7/4 socket outlet and a female contact for the grounding pin of a Type E socket outlet. Appliances supplied to countries using the E or F standard are supplied with this type of plug.

Type G

Plug according to British standard 1363. This type is used not only in the UK, but also in Ireland, Sri Lanka, Bahrain, UAE, Qatar, Yemen, Oman, Cyprus, Malta, Gibraltar, Botswana, Ghana, Hong Kong, Macau (Macao) , Brunei, Malaysia, Singapore, Indonesia, Bangladesh, Kenya, Uganda, Nigeria, Mauritius, Iraq, Kuwait, Tanzania and Zimbabwe. BS 1363 is also the standard for some former British colonies in the Caribbean such as Belize, Dominica, Saint Lucia, Saint Vincent and the Grenadines and Grenada. It is also used in Saudi Arabia in 230V appliances, although 110V appliances with a NEMA connector are more common.

This plug, commonly known as a "13-amp plug", is a large plug with three rectangular prongs forming a triangle. The phase and neutral contacts are 18 mm long and spaced 22 mm apart. 9mm of insulation at the base of the pins prevents accidental contact with exposed conductor when the plug is partially inserted. The ground pin is approximately 4 x 8 mm and approximately 23 mm long.

The plug has a built-in fuse. It is needed to protect the supply wire, as in the UK ring wiring is used, protected only by a central fuse, usually 32A. Any fuse can be inserted into the plug, but according to safety requirements it must be designed for the maximum current of the device being protected. The fuse is 1 inch (25.4 mm) long in accordance with British Standard BS 1362. Connections to sockets are made with the neutral wire on the left and the live wire on the right (looking at the front of the socket), so that a blown fuse in the plug breaks the live wire. The same convention is used for all UK sockets connected directly to the 'mains' wiring.

British Wiring Regulations (BS 7671) require socket outlets in homes to have a shutter on the live and neutral openings to prevent anything other than electrical plugs from being inserted. The shutters open when a longer ground pin is inserted. The curtains also prevent the use of plugs of other standards. Plugs for Class II devices that do not require grounding have a grounding pin that is often made of plastic and serves only to open the shutters and comply with the phase and neutral connection rules. It is generally possible to open the shutters with the blade of a screwdriver to accommodate a Type C plug (but not the BS 4573 British razor plug) or other types of plugs, but this is dangerous as these plugs do not have a safety lock and may jam in the socket.

BS 1363 plugs and sockets began appearing in 1946, and the BS 1363 standard was first published in 1947. By the late 1950s it had replaced the earlier Type D BS 546 in new devices, and by the late 1960s Type D devices were converted to Type BS 1363. Socket outlets often have phase switches for convenience and safety.

Type H

Two Israeli plugs and one socket. On the left is the old standard fork, on the right is the modernization of 1989.

SI 32 (Israeli 16 A/250 V, with grounding)

This plug, defined in SI 32 (IS16A-R), is not found anywhere except Israel and is not compatible with other types of sockets. It has three flat pins arranged in the shape of the letter Y. The phase and neutral are spaced 19 mm apart. The H-type plug is designed for 16A current, but in practice, the thin flat pins can cause the plug to overheat when connecting high-power devices. In 1989 the standard was revised. Now three round 4mm pins are used, placed in the same way. Receptacles manufactured since 1989 accept both flat and round prongs to accommodate both types of plugs. This also allows you to connect type H sockets to type C plugs, which are used in Israel for ungrounded devices. Older sockets, circa 1970s production, have both flat and round holes for the phase and neutral to accept both Type C and H plugs. As of 2008, Type H sockets, which accept only older Type H plugs, very rare in Israel.

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

Type I

Australian 3 pin double socket with switches

AS/NZS 3112 (Australasian type 10 A/240 V)

For more information on this topic see: AS 3112.

This type of plug, used in Australia, New Zealand, Fiji, Argentina and Papua New Guinea, has a grounding pin and two flat power contacts in an inverted V shape. The flat blades measure 6.5 mm × 1.6 mm and are mounted under an angle of 30° to the vertical with a nominal distance between them of 13.7 mm. Australian and New Zealand wall sockets almost always have switches for added safety, just like in England. An ungrounded version of this plug, with two angled power pins but no grounding pin, is used with small double-insulated appliances, but wall outlets always have three pins, including the grounding pin.

There are several variants of the AS/NZS 3112 plug, including a version with a wider grounding pin, used by devices with current consumption up to 15 A; Receptacles that support this contact also support 10-amp plugs. There is a 20 Amp version, with all three pins oversized, as well as 25 and 32 Amp options, with the pins larger than the 20 Amp plug, forming an inverted "L" for 25A and a horizontal "U" for 32A . These outlets accept plugs rated at or below the maximum amperage rating, but not plugs rated at higher amperages. For example, a 10A plug will fit into all sockets, but a 20A plug will only fit into 20, 25, and 32A sockets).

The Australasian standard plug/socket system was originally called the C112 standard (originating in 1937 as a temporary solution, adopted as a formal standard in 1938), which was replaced by the AS 3112 standard in 1990. As of 2005, the last significant change is AS/NZS 3112:2004, which requires insulation on supply contacts. However, it is permitted to use equipment and cables manufactured before 2003.

Chinese sockets accepting type A, C (top) and I (bottom, standard) plugs

China Compulsory Certification Mark (CCC)

CPCS-CCC (Chinese 10 A/250 V), according to GOST 7396 .1-89 - type A10-20

Although Chinese sockets have 1mm longer pins, they can accept Australasian plugs. The standard for Chinese plugs and sockets is established by documents GB 2099.1-1996 and GB 1002-1996. As part of China's commitment to join the WTO, a new certification system, CPCS (Compulsory Product Certification System), has been introduced, and corresponding Chinese plugs receive the CCC (China Compulsory Certification) mark. The plug has three contacts, grounding. Rated at 10A, 250V and used in Class 1 devices.

In China, sockets are installed the other way around, upside down, compared to Australasian ones.

China also uses US-Japanese Type A plugs and sockets for Class II devices. However, the voltage between the contacts of a Chinese socket is always 220V, regardless of the type of plug.

IRAM 2073 (Argentine 10A/250V)

The Argentinean plug has three contacts, grounding, and is designed for a current of 10A, voltage of 250V. The standard is defined by the Argentine Institute of Standardization and Certification (Instituto Argentino de Normalización y Certificación, IRAM) and is used with Class 1 devices in Argentina and Uruguay.

This fork is similar in appearance to Australasian and Chinese forks. The pin length is the same as the Chinese version. The most important difference from the Australasian plug is that the phase and neutral are connected to it in reverse.

Type J

Type J plugs and sockets

SEV 1011 (Swiss type 10 A/250 V)

Switzerland has its own standard, described in document SEV 1011. (ASE1011/1959 SW10A-R) This plug is similar to the Euro plug type C (CEE 7/16), except that it has an offset ground pin and no pins. insulated sleeves so that plugs that are not fully inserted into non-recessed receptacles present a risk of electric shock. Sockets used in kitchens, bathrooms and other wet areas are recessed, but those in other places are not. Some plugs and adapters have tapered ends and can be used anywhere, while others only fit into non-recessed outlets. Swiss sockets accept Swiss plugs or Euro plugs (CEE 7/16). There is also an ungrounded two-pin version with the same shape, dimensions and live-to-neutral spacing as the SEV 1011, but with a flatter hexagonal shape. The plug fits round and hexagonal Swiss sockets and CEE 7/16 sockets. Designed for current up to 10 A.

A less common version has 3 square contacts and is rated at 16 A. Above 16 A, the equipment must either be connected to the mains in a permanent way, with suitable branch protection, or connected using a suitable industrial connector.

Type K

Danish 107-2-D1, standard DK 2-1a, with round power pins and semi-circular ground pin

Danish computer socket, with rotated flat pins and semi-circular ground pin (used mainly for professional equipment), standard DK 2-5a

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

This Danish standard plug is described in 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 a grounding pin instead of a grounding hole (it's the other way around in a socket). This makes the Danish socket more discreet than the French socket, which appears as a depression in the wall to protect the ground pin from damage and from touching the power pins.

The Danish socket also accepts Europlug type C CEE 7/16 or type E/F CEE 7/17 Schuko-French hybrid plug. Type F CEE 7/4 (Schuko), E/F CEE 7/7 (Schuko-French hybrid), and Type E grounded French plug will also fit into this outlet, but should not be used for devices that require a grounding contact. Both plugs are rated at 10A.

The variant (standard DK 2-5a) of the Danish plug is intended only for interference-proof computer sockets. It fits into the corresponding computer socket and the normal K-type socket, but the normal K-type plugs are intentionally made to not fit into the dedicated computer socket. This plug is often used in companies, but very rarely at home.

There is also an option for medical equipment, with a rectangular left pin. It is often used in life support systems.

Traditionally, all Danish sockets were equipped with a switch to prevent touching live contacts when connecting/disconnecting the plug. Today, the use of sockets without switches is permitted, but such sockets must have a recess that protects a person from touching live contacts. However, usually the shape of the plug makes it very difficult to touch the contacts when connecting/disconnecting.

Since the early 1990s, earthed sockets have become mandatory in all new electrical installations in Denmark. Old sockets do not need to be grounded, but from 1 July 2008 all sockets, including old ones, must be protected by an RCD (HFI in Danish terminology).

Since 1 July 2008, type E (French, two-pin, earthing pin) wall sockets have been permitted in Denmark. This was done because equipment with K-type plugs was not sold to individuals and to break the monopoly of Lauritz Knudsen, the only company making K-type plugs and sockets.

Schuko type F sockets will not be permitted. The reason is that most plugs currently used in Denmark will get stuck in a Schuko socket. This can damage the socket. This may also cause poor contact, with the risk of overheating and fire. Broken F sockets can often be seen in German hotels frequented by Danes. Many international travel adapters are sold outside Denmark with plugs conforming to types C CEE 7/16 (Europlug) and E/F CEE 7/7 (Franco-Schuko hybrid) that can be used in Denmark.

Type L

Plug and socket 23-16/VII

A visual comparison of Italian type L plugs rated at 16 Amps (left) and 10 Amps (right).

Italian electrical installation with sockets of both types L (16 A on the left; 10 A on the right).

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

The Italian standard for earthed plug/socket outlets, CEI 23-16/VII, includes two models, 10 A and 16 A, differing in pin diameter and pin spacing (see details below). Both are symmetrical and allow you to connect the phase with the neutral in any way.

The double standard was adopted because in Italy, until the second half of the 20th century, electricity for lighting ( Luce= lighting) and for other purposes ( Forza= force, electromotive force; or Uso Promiscuo= general purpose) were sold at different tariffs, with different taxes, were considered separate meters, and were transmitted over different wires ending in different sockets. Although both electric lines (and the corresponding tariffs) were combined in the summer of 1974, many homes remained double-wired and double-metered for many years. Thus, two sizes of plugs and sockets became the de facto standard, still in use today and standardized in document CEI 23-16/VII. Older products are often equipped with one of the standard sockets, either 10 A or 16 A, requiring the use of an adapter to connect the other size plug.

Ungrounded Euro plugs CEE 7/16 (type C) are also widely used; they are standardized in Italy as CEI 23-5 and are suitable for most devices with low current requirements and double insulation.

Devices with CEE 7/7 plugs are also often sold in Italy, however, not every socket can accept them, since the pins of CEE 7/7 plugs are thicker than Italian ones. Adapters are cheap and are often used to connect CEE 7/7 plugs to CEI 23-16/VII sockets, but the rated current requirement is often violated (16A instead of 10A), which can lead to an unsafe connection in some cases.

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

The 10-amp variety extends the CEE 7/16 by adding a center ground pin of the same size. Therefore, CEI 23-16-VII 10 Amp sockets can accept CEE 7/16 Europlugs. This type of plug is shown in the first picture.

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

The 16 amp looks like a larger version of the similarly shaped 10 amp. However, the pins are 5 mm thick, with a distance between them of 8 mm (the 10A version has a distance of 5.5 mm), and are 7 mm longer. The packaging of these plugs in Italy may claim that they are of the “Northern European” type. In the past they were also called per la forza motrice(for electromotive force) (for forks for motive force, see above) or sometimes industriale(industrial), although the latter was never the correct definition, since enterprises used predominantly three-phase current and special connectors.

Two-size or multi-size sockets

Socket bipasso(number 1) and Italian adapted socket schuko(number 2 in the photo) in a modern product.

Italian socket brand VIMAR universale, capable of accepting plug types A, C, E, F, E/F hybrids and both Italian L plug types.

Since it is a fact that the type of plugs found throughout Italy varies, in modern installations in Italy (and other countries where type L plugs are used) it is possible to find sockets that accept plugs of more than one standard. The simplest type has a central round hole and two holes at the bottom and top, made in the shape of a figure eight. This design allows the connection of both type L plugs (CEI 23-16/VII 10 A and 16 A) and Euro plugs type C CEE 7/16. The advantage of this type of socket is its small, compact front part. VIMAR claims that it patented sockets of this type already in 1975 with the release of their model Bpresa; however, soon other manufacturers began selling similar products, calling them in most cases by the generic term presa bipasso(two-standard socket), which is now very common.

The second fairly common type looks like an F receptacle, but with the addition of a central grounding hole. Sockets of this design can, in addition to Type C and 10 Amp L type plugs, accept CEE 7/7 (E/F type) plugs. Some of these receptacles may have figure-eight holes to accept 16-amp L-type plugs. The trade-off for versatility is twice the size of a normal L-type receptacle.

Other types may go even further in terms of compatibility. Manufacturer VIMAR produces a socket universale(universal) that accepts CEE 7/7 (Type E/F), Type C, 10A and 16A Type L, and US/Japanese Type A plugs.

Other countries

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

Type M

The term "Type M" is often used to describe the 15 amp version of the old British Type D used in South Africa and elsewhere.

In the USSR, two-pin sockets with non-spring solid ring contacts and a built-in fuse were initially used. These included forks with replaceable split round pins. Often on the back of the plug there were sockets for connecting another plug, which made it possible to connect plugs in a “stack” when there were not enough sockets. But later such plugs were abandoned, since the pins of such plugs often unscrewed and broke while remaining in the socket. Solid pin plugs required the pin to be held in place by spring pins in the socket, so older sockets cannot provide reliable contact between the plug and solid pins. However, low-power devices can be connected to such an outlet. Split plugs typically fit Type C pin diameters, but cannot fit into Type F sockets due to the shape of the housing.

Old spanish sockets

In old buildings in Spain you can find sockets with a special type of plug, which has two flat blades and a round pin between them. This species is vaguely similar to the American one.

The phase and neutral contacts have dimensions of 9 mm × 2 mm. The distance between them is 30 mm. All three contacts are 19 mm long. The diameter of the grounding pin is 4.8 mm.

Despite the fact that the plug resembles an American one, the two flat contacts are much further apart from each other than in the American version.

There are no devices sold with these plugs. An adapter is needed.

British electrical clock connector

British three-pin clock connector and disassembled plug with 2A fuse.

Fused plugs and sockets of various non-interchangeable types can be found in older public buildings in Great Britain, where they were used to supply AC power to electric wall clocks. They are smaller than conventional sockets, usually designed to fit into BESA (British Engineering Standards Association) junction boxes, often almost flat. Older plugs had a fuse on both wires, newer ones only on the phase wire and had a ground pin. Most were provided with a retaining screw or bracket to prevent accidental disconnection. Gradually, battery-powered quartz watches almost completely replaced network ones, and along with them, similar connectors.

American "Type I"

American appliance manufacturers, Hubbell, Eagle, and perhaps others made sockets and plugs that were exactly Type I, similar to those used in Australia today. Such sockets were installed in the United States in the 1930s for electrical appliances installed in the laundry room: washing machines and gas clothes dryers (to drive the motor). It was impossible to accept type A plugs, which is probably why they quickly fell out of use, being replaced by type B sockets.

Greek "type H"

Sockets, plugs and tees of the old Greek system

Before the widespread use of the schuko system, sockets similar to the H type with round pins were used in Greece, which were usually called τριπολικές (tripoliks).

Perpendicular rosette, USA

Perpendicular slotted double rosette

Perpendicular Soviet slot socket RP-2B for 10A 42V AC

Another outdated type of outlet from Bryant is 125V 15A and 250V 10A. A NEMA 5-20 125V 20A or 6-20 250V 20A plug with a missing ground pin will fit this outlet, but a NEMA 2-20 plug is too large for it.

The top slots, as seen in the picture, are connected to silver clamp screws on the top, and the bottom slots are connected to copper screws on the bottom.

In Australia, the same or similar T-shaped sockets are used for DC power, for example in Stand-alone Power Systems (SAPS) or on ships. In this application, the horizontal slot is placed at the top and is at positive potential. In the same way, sockets are used for temporary equipment in emergency vehicles. In Victoria it is customary for the top of the letter T to be marked with a minus sign and therefore to be at negative potential. Outside Victoria, the vertical contact is designed to connect to the body/chassis. The top terminal of the T is positive on vehicles that have the chassis at negative potential. Also, the old vehicle is still running, with a positive potential on the chassis, that is, the polarity of the socket contacts can be any.

In the Soviet Union, and now in Russia, this socket was usually used to supply a reduced voltage for safety reasons, for example in schools, at gas stations, and in wet areas. The outlet is rated at 42V 10A AC. Such an unusual connection is necessary so that it is impossible to connect a low-voltage device to a 220V outlet.

US, combination double socket

The parallel-series receptacle accepts normal NEMA 1-15 parallel plugs as well as NEMA 2-15 series plugs. Both pairs of outlets are powered by the same source.

A more recent and fairly common version of this type is the T-slot rosette, in which serial and parallel slots were combined to produce T-shaped slots. This version also accepts normal NEMA 1-15 parallel plugs as well as NEMA 2-15 series plugs. By the way, a NEMA 5-20 (125V, 20A) or 6-20 (250V, 20A) plug without a grounding pin will also fit into this outlet. This type of socket has not been sold in stores since the 1960s.

Dorman & Smith (D&S), UK

D&S socket

The D&S standard was the earliest connector standard for ring wiring. The connectors were designed for a current of 13A. They were never popular in private homes, but were very often installed in prefabricated and municipal ones. They were also used by the BBC. D&S supplied sockets to local authorities at very low prices, with the intention of making money by selling plugs that typically cost 4 times the price of Type G plugs. It is not known exactly when D&S stopped producing plugs and sockets, but some local authorities continued to install them until the late 1950s years. D&S sockets were in use until the early 1980s, although the difficulty of obtaining plugs for them after 1970 forced residents to replace them with G sockets. This generally contravened local government redevelopment orders. The D&S plug had a serious design flaw: the fuse, which also served as a phase pin, was connected to the plug body with a thread, and often unscrewed during operation, remaining in the socket.

Wylex, UK

Wylex plugs and sockets were manufactured by Wylex Electrical Supplies Ltd. as competitors to the G and D&S types. There were varieties of plugs designed for 5 and 13 amperes, with different widths of phase and neutral contacts and fuse ratings. The plug had a round ground prong in the center and two flat prongs on each side for live and neutral, slightly above the middle of the center prong. Wall sockets were rated at 13A and accepted 5A and 13A plugs. Many 13A plugs had a socket on the back that would only accept a 5A plug. Wylex sockets were installed in municipal and public housing, less often in the private sector. They were particularly popular in the Manchester area, although they were installed throughout England, mainly in schools, university housing and government laboratories. Wylex plugs and sockets continued to be produced after the final adoption of the G standard, and were widely used in banks and computer rooms throughout the 1960s and 1970s for uninterruptible power supplies or "clean" filtered networks. It is not known exactly when Wylex stopped producing plugs and sockets; however, plugs could be found on sale in the Manchester area until the mid-1980s.

Chuck adapters

Two Italian lamp sockets, with outlet. On the left is a 1930 example (porcelain and copper); right - ok. 1970 (black plastic).

The incandescent lamp socket plug fits into a bayonet or Edison screw socket. It allows you to connect electrical appliances to light bulb sockets. These plugs were widely used from the 1920s to the 1960s, when many homes had few or no wall outlets.

Often, lighting circuits are equipped with a 5A fuse or circuit breaker, which does not prevent the socket from overheating. Fuses were very rarely installed in the adapters themselves. In the UK and some other countries the use of such adapters is prohibited for fire safety reasons.

In Italy, plugs for Edison lamp sockets were used very widely, while the lighting network was separated from the general purpose network, and some places in the house (for example, basements) were not usually equipped with sockets.

Type A adapters can still be easily found in the Americas.

Rare types

NEMA 2-15 and 2-20

Ungrounded plugs with two flat parallel blades are a variant of the 1-15 plug, but are designed to supply 240 volts instead of 120. The 2-15 has coplanar power contacts (rotated 90° relative to the contacts in regular American plugs), and the voltage rating is current is 240V 15A, while 2-20 has two power contacts rotated 90° relative to each other (one vertical, the other horizontal) and a rating of 240V 20A. NEMA 2 plugs and sockets are very rare because they have been banned for decades in the US and Canada. They are potentially dangerous because they are not grounded, and in some cases the plugs may be inserted into outlets of a different voltage. Before the NEMA standard for 120V at 20A, a plug almost identical to the 2-20 type was used. The 2-20 plug fits into 5-20 and 6-20 sockets designed for a different voltage.

Walsall Gauge, UK

Unlike standard English BS 1363 plugs, the earth pin is horizontal and the live and neutral pins are vertical. This type of plug was used by the BBC, and is still sometimes used on the London Underground on low voltage networks.

Italian connector Bticino Magic security

Left: Bticino Magic Security socket. In the center: an assortment of Magic Security sockets (orange - industrial three-phase socket). Right: Magic Security range of plugs.

Magic security connectors were developed by Bticino in the 1960s as an alternative to Europlugs or L-type connectors. Sockets of this type are almost rectangular, the plugs were inserted into a shaped slot, closed with a safety lid with the inscription “Magic”, which could only open when the corresponding plug was inserted into it. At least four models were produced: three single-phase general purpose connectors, rated respectively 10A, 16A and 20A, and a three-phase industrial connector rated 10A. Each connector had its own slot shape so that plugs could not be plugged into sockets that did not correspond to them. The contacts are located on both sides of the plug. The plug only connects to electricity when it is fully inserted into the outlet.

The obvious disadvantage of the system is that it is not compatible with Euroforks. Since household appliances were never sold with such a plug, after installing such sockets it was necessary to replace the plugs with the corresponding Magic security ones. However, the system Magic security was initially quite popular among consumers who valued security; The connectors used at that time were not sufficiently safe. When safety covers for type L sockets (VIMAR Sicury) were invented, Magic sockets almost went out of use.

In Italy, the Magic system has not been officially abandoned, and it is still available in the Bticino product catalog, although it is not popular.

In Chile, 10 Amp Magic connectors are commonly used in computer and laboratory environments, as well as in telecommunications plants, as a standard of reliability and safety, due to their polarization, difficulty of accidental disconnection, etc.

Receptacles that support different types of plugs can be found in various countries in which market size or local market conditions make developing a specific plug standard impractical. These sockets accept plugs made to various European, Asian and North American standards. Because many plug standards are tied to their respective voltages, multistandard receptacles do not provide protection against damage to devices rated for other voltages. This forces users to know the voltage requirements for their devices as well as the prevailing voltage in the host country. With such sockets, you can safely use devices that automatically adjust to the desired voltage and frequency and do not require grounding.

These outlets may have one or more grounding holes for three-prong plugs. In correctly routed circuits, the ground pin is actually grounded; however, it is possible to determine whether this is so only with the help of special instruments. Even correctly wired sockets cannot guarantee a ground connection to all types of plugs, since it is difficult to create a socket of this design.

Legrand connector designed for high current (up to 32 amperes)

When connecting a three-phase electric stove, the load on each phase separately is reduced due to the fact that each part of the stove is connected to a separate phase.

With a single-phase connection, the load on a single phase increases. The maximum power consumption of a typical modern electric stove is 8-10 kW, which at a voltage of 220V corresponds to a current of 36-45A. Conventional household wall sockets are designed, as a rule, for a current of no more than 16A, so the stove must be connected to the electrical network either in a permanent way or with a grounded connector designed for the appropriate current.

Different countries have different practices for connecting electric stoves.

For example, Swiss regulations dictate that equipment consuming current in excess of 16A must either be connected to the network in a permanent way, with suitable branch protection, or connected using an industrial connector suitable for the current rating.

The electrical safety regulations of some other countries do not say anything about the method of connecting electric stoves, and everyone is free to choose the connection method independently. Often the consumer himself buys the first non-standard pair of plug and socket for a specific electric stove, and it often happens that they are designed for a current of 25-32A, since the user relies on the fact that the stove usually never turns on at full power. The non-standard nature of the plug and socket is explained by the lack of national standards for connecting electric stoves.

See also

Links

• IEC Zone: Plugs and sockets - This page is an informational list. See also main article: AC Power Plugs and Receptacles The two main standards used in the world are voltage and frequency. One of them is the American standard 100 127 Volt 60 Hertz ... Wikipedia

An IEC connector is the general name for a set of thirteen female connectors mounted on the power cord (hereinafter called connector) and thirteen male connectors mounted on the panel of the device (called input), defined by the specification ... ... Wikipedia

This term has other meanings, see Rosette. This article lacks an introduction. Please add an introductory section that briefly describes the topic of the article. Contained ... Wikipedia

This article is about the design, technical features and history of the development of plug connectors. For plug connector standards adopted in different countries, see List of plug connector standards ... Wikipedia

This term has other meanings, see Voltage... Wikipedia

- (CEE 7/17), mechanically polarized version The contour plug (Type designation: CEE 7/17) has been designed to be used, like the Europlug, throughout Europe. It is used when the device does not require protective grounding, but ... Wikipedia

We purchase a lot of electrical household appliances of varying power, made in EU countries, whose power cords end with European-type electrical plugs. It is known that they differ not only in the diameter of the metal part from our domestic ones, but also in their shape, greater potential power and the presence of one or two grounding contacts. But we must not forget about the so-called “Soviet” type, which is still widely used in Russia and the CIS countries along with electrical appliances of past times; therefore, we will begin a brief review of European-type electrical plugs with them.

One of the most common plug designs in the USSR, designed for 220V, 6A

This type, called Soviet C1/B, is still produced in our homeland and in terms of its qualities it can be equated to the European type CEE 7/16 Europlug. Electrical plugs of this type are designed for a current of 6 A and 10 A at a voltage of 220 - 250 V and a frequency of 50 Hz. They do not have grounding terminals, but they have one advantage, which is that their design is collapsible, which means that if the cable is damaged, you can replace it, leaving the socket the same and without spending money on a new one. The diameter of the pins in the Soviet plug is 4 mm.

The next type of electrical plug, which also has pins with a diameter of 4 mm and which is widespread in European countries except England, Ireland and Malta, belongs to the CEE 7/16 Europlug class. It is used when operating low-power household electrical appliances, without grounding contacts and is designed for a current of up to 2.5 A at a voltage of 1100 - 220 V. Compatible with classes C, C1, E, F.

Type C6 (in Europe CEE 7/17) we have a “Euro plug”, with round pins (knives) with a diameter of 4.8 mm

But the French type of electrical plug has metal pins with a diameter of 4.8 mm and one grounding contact. Widely used in France, Poland and Belgium. Used for medium-power appliances such as vacuum cleaners, air conditioners, water heaters, etc. This type of plug can withstand current up to 16 A at a voltage of 220 - 250 V. Compatible with sockets of type C, E, F, but with Soviet type C1 /B are incompatible and can only be used with an adapter.

For electrical appliances of medium and high power consumption, the European German type of plugs “Schuko” CEE 7/4 is used, which is widespread in Germany, Sweden, Norway and Holland.

CEE 7/4 Schuko plug and Schuko socket

Designed for a current of up to 16 A, in some versions up to 25 A at a voltage of 220 - 250 V, has a pin diameter of 4.8 mm, one grounding pin and is compatible with sockets C and F. According to its characteristics, “Schuko” CEE 7/4 Suitable for French type E CEE 7/5 plugs.

There is also a hybrid type of E/F electrical plugs - CTT 7|7, which combines German and French quality. Very common in European Union countries when using medium and high power consumption devices. They have a grounding contact and are suitable for sockets of type C, E and F with a metal pin diameter of 4.8 mm.

This article lists all types of electrical plugs and sockets accepted for use in countries around the world.

This is the so-called American type and plugs. The plug has two flat contacts parallel to each other. Used in most countries of North and Central America, particularly in the United States, Canada, Mexico, Venezuela and Guatemala, and also in Japan. And also in countries where the network voltage is 110 Volts.

Type B

Similar to type A connector, but with an additional round pin. Used in everyday life in the same regions of the world as Type A plugs and sockets.

Type C

This is our native European type of socket and plug. The plug has two round contacts parallel to each other. Its design does not have a third grounding contact. This is the most popular type and sockets in European countries, except the United Kingdom of Great Britain, Ireland, Malta and Cyprus. Used in everyday life where the mains voltage is 220 Volts.

Type D

This is the old British type with three round pins mounted in a triangle shape. In this case, one of the contacts is thicker than the other two. This type of sockets and plugs is used to maximize current in electrical networks in countries such as India, Nepal, Namibia and the island of Sri Lanka.

Type E

This type has an electrical plug with two round pins and a hole for a grounding contact, which is located in the socket of the socket. This type of socket plugs is currently used in Poland, France and Belgium.

Type F

Models of this type are similar to models of Type E sockets and plugs. Only instead of a round ground pin, two metal clips are used here on both sides of the connector. This type of sockets and plugs is generally used in Germany, Austria, Holland, Norway and Sweden.

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Type G

This is a typical British socket and its friend the three-blade plug. Used in apartments and private houses in the UK, Ireland, Malta, Cyprus, Malaysia, Singapore and Hong Kong. Note - sockets of this type of design are often produced with a built-in internal fuse. Therefore, if after connecting the device it does not work, then the first thing you need to do is check the condition of the fuse in the socket, perhaps this is the problem.

Type H

This design of socket and plug connectors is used only in the State of Israel and the Gaza Strip. The socket and plug have three flat pins, or in the earlier version, round pins arranged in a B shape. Not compatible with any other plug. It is intended for networks with a voltage of 220 V and a current of up to 16 A.

Type I

This is the so-called Australian outlet. It, like an electrical plug, has two flat contacts, as in an American type A connector, but they are located at an angle to each other - in the shape of the letter B. There are such sockets and plugs with a grounding contact. These models are used in Australia, New Zealand, Papua New Guinea and Argentina.

Type J

Swiss type electrical plugs and sockets. The plug is very similar to its Type C cousin, but has an additional ground pin in the middle and two round power pins. They are used not only in Switzerland, but also abroad - in Liechtenstein, Ethiopia, Rwanda and the Maldives.

Type K

Danish electrical sockets and plugs. The type is similar to the popular European Type C socket, but additionally has a ground pin located at the bottom of the connector. It is the basic standard in the countries of Denmark and Greenland, as well as in Bangladesh, Senegal and the Maldives.

Type L

Italian plug and socket. The model is similar to the popular European Type C, but has an additional round ground pin located in the center, the two round power pins are unusually arranged in a line. Such sockets and plugs are used in Italy, as well as Chile, Ethiopia, Tunisia and Cuba.

Type M

This is an African socket and plug with three round pins arranged in a triangle shape, with the ground pin being clearly thicker than the other two. It is similar to the D-type connector, but has much thicker pins. The socket is designed to power electrical devices with a current of up to 15 A. Widely used in South Africa, Swaziland and Lesotho.

There are more than a hundred ways to connect electrical appliances to the network in the world. There are a huge number of plugs and sockets. It is also necessary to take into account that each country has a specific voltage, frequency and current strength. This can turn into a serious problem for tourists. But this question is relevant today not only for those who love to travel. Some people, when renovating an apartment or house, deliberately install sockets of the standard of other countries. One of these is the American outlet. It has its own characteristics, disadvantages and advantages. Today there are only 13 socket and plug standards that are used in different countries of the world. Let's look at some of them.

Two frequency and voltage standards

It would seem, why do we need so many standards and types of electrical elements? But it should be taken into account that there are different network voltage standards. Many people do not know that the household electrical network in North America uses not traditional 220 V, as in Russia and the CIS, but 120 V. But this was not always the case. Until the 60s, throughout the Soviet Union, household voltage was 127 volts. Many will ask why this is so. As you know, the amount of electrical energy consumed is constantly growing. Previously, apart from light bulbs in apartments and houses, there were simply no other consumers.

Everything that each of us plugs into a power outlet every day - computers, televisions, microwaves, boilers - did not exist then and appeared much later. When the power increases, the voltage must be increased. Higher current entails overheating of the wires, and with them certain losses due to this heating. This is serious. In order to avoid this unnecessary loss of precious energy, it was necessary to increase the cross-section of the wire. But it is very difficult, time-consuming and expensive. Therefore, it was decided to increase the voltage in the networks.

The times of Edison and Tesla

Edison was a proponent of direct current. He believed that this particular current was convenient for work. Tesla believed in the advantages of variable frequency. Eventually the two scientists began to practically fight each other. By the way, this war ended only in 2007, when the United States switched to alternating current in household networks. But let's return to Edison. He created the production of incandescent light bulbs with carbon-based filaments. The voltage for optimal operation of these lamps was 100 V. He added another 10 V for losses in the conductors and at his power plants accepted 110 V as the operating voltage. That is why the American outlet was designed for 110 V for a long time. Further in the States, and then in other countries that worked closely with the United States adopted 120 V as the standard voltage. The current frequency was 60 Hz. But electrical networks were created in such a way that two phases and a “neutral” were connected to houses. This made it possible to obtain 120 V when using phase voltages or 240 in the case of

Why two phases?

It's all about the generators that created electricity for all of America.

Until the end of the 20th century, they were two-phase. Weak consumers were connected to them, and more powerful ones were transferred to linear voltages.

60 Hz

This is entirely due to Tesla. This happened back in 1888. He worked closely with J. Westinghouse, including on the development of generators. They argued a lot and for a long time about the optimal frequency - the opponent insisted on choosing one of the frequencies in the range from 25 to 133 Hz, but Tesla stood firm on his idea and the figure of 60 Hz fit into the system as much as possible.

Advantages

Among the advantages of this frequency are lower costs in the manufacturing process of the electromagnetic system for transformers and generators. Therefore, equipment for this frequency is significantly smaller in size and weight. By the way, the lamps practically do not flicker. An American outlet in the States is much better suited for powering computers and other equipment that requires good power.

Sockets and standards

There are two main standards in frequency and voltage in the world.

One of them is American. This network voltage is 110-127 V at a frequency of 60 Hz. And standard A and B are used as plugs and sockets. The second type is European. Here the voltage is 220-240 V, frequency is 50 Hz. The European socket is predominantly S-M.

Type A

These species are widespread only in Northern and Central America. They can also be found in Japan. However, there are some differences between them. The Japanese have two pins parallel to each other and flat with the same dimensions. The American outlet is a little different. And the fork for it, accordingly, too. Here one pin is wider than the second. This is done to ensure that the correct polarity is always maintained when connecting electrical appliances. After all, previously the current in American networks was constant. These sockets were also called Class II. Tourists say that plugs from Japanese technology work without problems with American and Canadian sockets. But connecting these elements in reverse (if the plug is American) will not work. A suitable adapter for the socket is required. But usually people just file down the wide pin.

Type B

These types of devices are only used in Canada, the USA and Japan. And if type “A” devices were intended for low-power equipment, then such sockets are used mainly for powerful household appliances with consumption currents of up to 15 amperes.

In some catalogs, such an American plug or socket may be designated as Class I or NEMA 5-15 (this is already an international designation). Now they have almost completely replaced type “A”. In the USA, only "B" is used. But in old buildings you can still find the old American outlet. It does not have a contact responsible for connecting the ground. In addition, the US industry has long been producing appliances with modern plugs. But this does not prevent the use of new electrical appliances in old houses. In this case, resourceful Americans simply cut off or destroy the grounding contact so that it does not interfere and can be connected to an old-style outlet.

About appearance and differences

Anyone who purchased an iPhone from the USA knows very well what an American outlet looks like. It has its own characteristics. The socket consists of two flat holes or slits. New type devices have an additional grounding contact at the bottom.

Also, to avoid errors, one pin of the plug is made wider than the other. The Americans decided not to change this approach, and left everything the same in the new outlets. The contacts on the plug are not pins like a European socket. These are more like plates. There may be holes at their ends.

How to operate American equipment in the CIS countries

It happens that people bring equipment from the States and want to use it in Europe or Russia. And they encounter a problem - the socket does not fit the plug. So what should we do? You can replace the cord with a standard European one, but this is not an option for everyone. For those who are not technically savvy and have never held a soldering iron in their hands, it is recommended to purchase an adapter for a socket. There are quite a lot of them - they are all different in quality and price. If you are planning a trip to the USA, then you should stock up on adapters in advance. There they can cost five or more dollars. If you order from an online store, you can save up to half the cost. It should also be taken into account that even in US hotels, all sockets meet the American standard - and it doesn’t matter that most of the people who stay are foreign tourists.

In this case, an adapter from an American outlet to a European one could help him. The same applies to equipment purchased in the USA. If you don’t want to solder, you can buy an inexpensive Chinese-made adapter and fully use electrical appliances, charge your phone or tablet on a non-standard socket. There are no other options here.

Summary

They say that you can’t understand Russia with your mind, but in the USA everything is not so simple either. You can't just show up and use American style sockets with European or any other plugs. Therefore, you should take adapters on the road, and you need to order them in advance. This saves a lot of time and money.

American sockets are very different from Russian (European), and our plugs cannot be plugged into them, no matter how hard you try. :-) The same problem is on the other side, many people want to buy equipment in America (because the selection is better here and the prices are lower) and take them home, but they are faced with a variety of plugs.

US grid voltage

The voltage in the electrical network in Russia is 220 (220-240) volts, in the USA it is 110 (in Japan, by the way, too). In theory, this is a safer voltage level, and there is less risk of fire if there is a short circuit. Most modern equipment operates on both voltages; some chargers and power supplies have switches, some operate automatically depending on the voltage in the outlet. So research the chargers and plugs on your equipment in advance.

Americans also have different plugs - with two flat pins (the left one is wider vertically than the right one), or in addition to two flat pins there is a rounded third one. In general, the holes on the socket look like some kind of scared smiley face. ?

These are plugs (plugs) from an electronic watch and below from a laptop charger.

Also a big plus in modern chargers is USB. That is, players and phones can be charged from a computer, or you can purchase a power outlet/USB adapter (if one is not included with the device). This is how I charge my tablet:

And there are also these unusual forks with buttons. They are made mainly on hair dryers, styling irons, electric shavers and kitchen appliances (mixers, blenders). If water gets into the socket, the fuse trips and the hair dryer, for example, turns off, protecting you from a short circuit.

We have the same socket (with buttons) in our kitchen:

When we moved, knowing such a difference in sockets and plugs, we left many electrical appliances in Russia, and there was no point in dragging them. All sorts of hair dryers and razors can always be bought in the USA, they are good and not expensive. The only thing we had with the Russian plug was charging from the camera. But the cord with an American plug from a laptop purchased in the first days of my stay in America fit very well with it. :-)

Still, if you need an adapter, you can order it in advance before departure on some Chinese website or look for it in electrical goods stores. There are also adapters that have several plug options built in (for all occasions for tough travelers). In the USA, an adapter from an American plug can be bought on the Amazon website (they cost from 3 to 10 dollars, depending on the sophistication and are called “adapter”), you can also look in supermarkets with household goods, such as Target or Walmart, and they also write that The adapter can be purchased at the airport upon arrival, but of course, it will cost several times more. Yes, and as a last resort, if you are just going to the USA to relax for a couple of weeks, then you can rent an adapter from friends and acquaintances. ?