Telephone numbering plan

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A telephone numbering plan is a type of numbering scheme used in telecommunications to assign telephone numbers to subscriber telephones or other telephony endpoints. Telephone numbers are the addresses of participants in a telephone network, reachable by a system of destination code routing. Telephone numbering plans are defined in each of administrative regions of the public switched telephone network (PSTN) and they are also present in private telephone networks.

Numbering plans may follow a variety of design strategies which have often arisen from the historical evolution of individual telephone networks and local requirements. A broad division is commonly recognized, distinguishing open numbering plans and closed numbering plans. A closed numbering plan, such as found in North America, imposes a fixed number of digits to every telephone number, while an open numbering plan allows variance in the numbers of digits. Many numbering plans subdivide their territory of service into geographic regions designated by an area code, which is a fixed-length or variable-length set of digits forming the most-significant part of the dialing sequence to reach a telephone subscriber.

The North American Numbering Plan is a closed numbering plan and prescribes ten digits for each complete destination routing code. A complete telephone number consists of three basic parts. The most significant part is a 3-digit Numbering Plan Area (NPA) code (area code). Each area code comprises a set of 3-digit central office (CO) codes, which are unique to each telephone exchange within an NPA. The remaining four digits are the specific station number assigned to each telephone.

The International Telecommunications Union (ITU) has established a comprehensive numbering plan, designated E.164, for uniform interoperability of the networks of its member state or regional administrations. It is an open numbering plan, however, imposing a maximum length of 15 digits to telephone numbers. The standard defines a country calling code (country code) for each state or region which is prefixed to each national numbering plan telephone number for international accessibility.

History[edit]

In early telephone systems, connections were made in the central office by switchboard operators using patch cords to connect one party to another. To make a telephone call, a person would wind a crank to generate a ring signal to the central office operator, either before or after the user took the telephone handset off-hook. At the central office a gong or later an electric light indicated the need to respond to the customer, upon which the operator inserted a patch cord into a socket and assisted the customer with the call by voice. Another patch cord connected the caller to destination telephone line. If the destination party belonged to another exchange, the operator used a patch cord to connect to that exchange where an operator would complete the call setup. As technology advanced, automatic electro-mechanical switches were introduced and telephones were equipped with initially rotary dials for pulse-dialing, and in the 1960s with Touch-Tone key pads which increased the speed of dialing and enabled other vertical telephone features.

Initial use of area codes in the United States and Canada began in 1947 in large cities.^[1] By 1966, the system was implemented fully in both countries.^[2] Area codes were initially assigned based on the volume of telephone calls made in each area. The most populous areas were assigned the area codes that required the least time for dialing using a rotary dial telephone. A subscriber line as well as switch banks had to be allocated for the entire time from begin of dialing to the end of a call. The time to dial a digit was directly proportional to the digit, with the exception of the 0, which required 10 pulses or 1 second. The densely populated areas of New York City, Chicago, Los Angeles, and Detroit had large incoming call volume and were assigned the shortest area codes (212, 312, 213, and 313, respectively). A sparsely populated area of rural Texas received area code 915. Area codes which covered an entire province or state received the less-desirable '0' middle digit. The first area code installed was 201 for New Jersey. Such numbering strategies became less important when the Bell System introduced Dual-tone multi-frequency (DTMF) signaling in its Touch-Tone® service starting in 1963, where all digits were generated in the same amount of time.

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When the North American Numbering Plan was developed, logic circuits included electromechanical relays which imposed limitation on the speed of dialing a digit, and therefore dialing a complete 10-digit telephone number could take up to ten seconds, during which hardware resources had to be dedicated to a circuit. The Bell System organized the numbering plan in a way to minimize the cost of providing automatic dialing to large population centers. The second digit of all area codes was 0 or 1, while the second digit of the exchange triplet was never 0 or 1, thus facilitating the recognition of whether a user was dialling a full 10-digit number or merely dialing within the local area code. In this coding scheme, a leading 1 indicating long distance, or out of the area code call, was not necessary. In some regions, local numbers were 7 digits (occasionally less), but a toll call within the area code required a preceding "1". This told the subscriber that the call being placed was a toll call. Area code 617 in eastern Massachusetts used this system in the early 1970s, while the Chicago area (312) did not. In the Chicago area, one could call the Boston area by dialing only 10 digits, while in Boston, to call Chicago, one would be required to use 11 digits (preceding the 10 digits with a "1")

By the 1990s, the mechanical central office switches were rapidly replaced with Electronic Switching System (ESS) equipment, and the area code logic was no longer necessary. The demand for more telephone numbers was increasing rapidly, and the possible "n0n" and "n1n" combinations were insufficient to sustain growth. This area code scheme was abandoned, with the result that former area code only numbers could now be exchanges, and former exchange only numbers could now be area codes. This caused a logic dilemma: The switch had no way of knowing whether to expect 10 digits or 7 digits. The solution was simple. If a preceding "1" was dialed then 10 more digits were expected. If the first digit entered was not a "1", only 7 digits were expected and the area code was inferred from the originating subscriber number. For a short while, in some area codes, one could enter the full 11 digits for a call within their own neighborhood or just enter the last 7 digits, and the call would be routed and billed identically.

Because of the popularity of fax machines and cell phones, far more telephone numbers were needed to handle the demand, and the decision was taken to add more area codes rather than increase the number length. Since 1995, there have been over 380 new area codes added in the North American Numbering Plan area. Some created area code splits (where an existing area code was split up into two or more new area codes). This cost businesses and others a lot of money reprinting stationery, business cards, etc. These were often greatly contested as to which area could keep the old area code (usually the largest city kept the old code). For instance, 305 was split in 1995. It used to serve both the Miami and Fort Lauderdale area. Dade County (at the time, now called Miami-Dade) kept 305 and Broward County (the Fort Lauderdale area) had to change to 954. Because splits were challenged so strongly, overlays were created when possible. An overlay was a new area code that covered the same geographical area as an existing code. This enabled people to keep their old area code, while new phone numbers would get the new area code. There have been over 75 overlays introduced since 1995.^[3]

Currently, because of area code overlays, nearly all metropolitan and many rural telephone calls require the full 10 digit entry to complete a telephone call.

Structure[edit]

Most telephone numbers belong to the E.164 numbering plan, though some PABXs (business telephone systems) have internal extensions.

The E.164 numbering plan for telephone numbers includes:

• Country calling codes
• Regional numbering plans, such as:
  • the European Telephony Numbering Space
  • the North American Numbering Plan
• Various national numbering plans, such as:
  • Telephone numbers in the United Kingdom

Apart from the use of numbering plans for telephone numbers, they are also used in routing of Signaling System 7 (SS7) signalling messages as part of the Global Title. In public land mobile networks, the E.212 numbering plan is used for subscriber identities (e.g., stored in the GSM SIM) while E.214 is used for routing database queries across PSTN networks.

Country code[edit]

Country code - necessary only when dialing to phones in other countries. In international usage, telephone numbers are prefixed with the country code preceded by a "+", and with spaces in place of hyphens (e.g., "+XX YYY ZZZ ZZZZ"). This allows the reader to choose which Access Code (also known as International Dialing Digit) they need to dial from their location. However, it is often quoted together with the international access code which must precede it in the dial string, for example "011" in NANP countries (including Canada, Bermuda, and the United States): "011-XX-YYY-ZZZ-ZZZZ", or "00" in most European countries: "00-XX-YYY-ZZZ-ZZZZ". This can cause confusion as a different Access Code may be used where the reader is located. On GSM networks, "+" is an actual character that may be used internally as the international access code, rather than simply being a convention.

Area code[edit]

Numbering plans for geographically allocated telephone numbers typically designate an area code as the prefix routing code for a region. Area codes are defined differently by the various telecommunication administrations.

• A fixed length, e.g., three digits in the United States and Canada; two digits in Brazil; one digit in Australia and New Zealand,
• A variable length, e.g., between 2 and 5 in Germany, Argentina, United Kingdom and in Austria; between 1 and 5 in Japan; 1 or 2 in Syria and Peru, or
• Incorporated into the subscriber's number, as is the case in many countries, such as Spain or Norway. These systems use a closed telephone numbering plan. In some cases a trunk code (usually 0) must still be dialed, as in Belgium, Italy, Switzerland, South Africa. Hong Kong used to have 1-digit area codes^[4]

In the North American Numbering Plan, area codes are known as Numbering Plan Area (NPA) codes. In the UK, they were known as subscriber trunk dialling (STD) codes. Depending on local dial plans, they are often necessary only when dialed from outside the code area, from mobile phones, and, especially within North America, from within overlay plans. Area codes historically designated geographical areas served by perhaps hundreds of telephone exchanges, although the strict correlation to a geographical area has been broken by technical advances.^[5]

The area code is usually preceded in the dialing sequence by either the national access code ("0" for many countries, "1" in USA and Canada) or the international access code and country code. However, this is not always the case, especially when 10-digit dialing is used. For example, in Montreal, where area codes 514, 438, 450 and 579 are in use, users dial 10-digit numbers (e.g., 514 555 1234), dialing a 1 before this results in a recording advising not to dial a 1 as it is a local call. For non-geographic numbers, as well as mobile telephones outside of the North American Numbering Plan area, the area code does not correlate to a particular geographic area. However, until the 1990s, some areas in the United States required the use of a 1 before dialing a 7-digit number within the same area code if the call was beyond the local toll-free area, indicating that the caller wished to make what was referred to as a toll call.

Area codes are often quoted by including the national access code. For example, a number in London should be listed as 020 8765 4321. Users must correctly interpret the 020 as the code for London. If they call from another station within London, they may merely dial 8765 4321, or if dialing from another country, the initial 0 should be omitted after the country code: 44 20 8765 4321.

Area codes were introduced in the United States by the Bell System in 1947. The first directly dialed long distance call occurred in 1951.^[6]

When the Bell System first designed the area codes concept, the initial 3-digit number format was NBX, where N could be any digit from 2 to 9, B either 0 or 1, and X any digit. Since all telephones in this era used pulse dialing mechanisms, the engineers sought to reduce the time required for dialing during which a circuit had to be dedicated, as well as lower the overall mechanical wear by reducing the number of clicks on numbers that are dialed most often. Areas with higher call volume would be assigned lower first and third digits and a 1 as the center digit. The digit 0 was located at the end of the dial after 9, making zero the longest digit to dial. New York, having the highest call volume, was assigned the 212 area code, the shortest code that could be dialed. This was followed by Los Angeles at 213, and Chicago at 312. The next code, 313, designated Detroit, because it had a larger call volume than Philadelphia, the next largest in population at the time. Philadelphia received the area code 215, while the Dallas–Fort Worth area received 214, even though Dallas–Fort Worth was less populous at the time.

In 1995, during the expansion of area codes the center-digit rule was relaxed, defining it as any digit except 9. 9 as the middle digit of an NPA is reserved in case the 3-digit area codes pool is exhausted and has to be augmented to 4 digits.

Subscriber number[edit]

The subscriber number is the local number assigned to the line connected to a customer's equipment. It must always be dialed in its entirety. The first few digits of the subscriber number typically indicate smaller geographical areas or individual telephone exchanges. In mobile networks they may indicate the network provider. Callers in a given area or country usually do not need to include the particular area prefixes when dialing within the same area. Devices that dial telephone numbers automatically may include the full number with area and access codes.

Area code and call pricing[edit]

In countries other than the United States and Canada, the area codes generally determine the cost of a call. Calls within an area code and often a small group of adjacent or overlapping area codes are normally charged at a lower rate than outside the area code. This is not necessarily the case in the United States or Canada where rates are determined by the distance between rate centers. In most United States and Canadian locations area codes cover a sufficiently large territory that different rates will apply within the same area code determined by the distance between rate centers. Each rate center also has a local calling plan which determines which other rate centers, regardless of distance, are a local call. The area code plus the first three digits following the area code (the NPA-NXX) defines the rate center for any given telephone number. Multiple NPA-NXX combinations, often in different area codes, comprise each rate center, and each rate center is assigned a geographic point known as the rate center's V&H coordinates. The tariff distance in miles between any two rate centers may be calculated using this formula: .

Calls between nearby rate centers in different area codes may be cheaper (or even free local calls) as compared to calls to more distant rate centers in the same area code. Rates are set in zones of 0-6 mi, 6-12 mi, and so on, with these bands determined on a state-by-state basis for intrastate calls (calls within the same state) and determined by federal regulation for interstate calls (calls which cross a state line). As a specific example, callers in the Falls Church, Virginia, rate center (officially named "Washington Zone 17, VA"—example numbers beginning with 703-534, V=5636, H=1600) may make untimed local calls to 31 other nearby rate centers in Virginia, Maryland, and the District of Columbia in area codes 703, 571, 202, 301, and 240, while calls to distant locations in 703, such as Manassas and Haymarket, VA, are charged as long distance.

Calls within a state [regulated by that state's public utilities commission] are often higher than rates to call more distant locations in some other state [regulated by the Federal Communications Commission]. The partial deregulation and introduction of competition for long-distance phone services has established other methods of determining call pricing that do not necessarily follow the traditional model. Each year, more customers switch to a fixed rate, "all-you-can-dial" plan covering the state, the United States, or all North America generally (as of May 2008 and exclusive of taxes) for approximately $30 per month. Competition with cable telephony and Voice over Internet Protocol services has helped drive the cost of service down for residential and business customers.

Special area codes are generally used for free, premium-rate, mobile phone systems (in countries where the mobile phone system is "caller pays") and other special-rate numbers. There are, however, some exceptions: in some countries (like Egypt), calls are charged at the same rate regardless of area and in others (like the UK) an area code is occasionally treated as two areas with different rates.

Customer dialing procedures[edit]

A dial plan establishes the expected sequence of digits dialed on subscriber premise equipment, such as telephones, in private branch exchange (PBX) systems, or in other telephone switches to effect access to the telephone networks for the routing of telephone calls, or to effect or activate specific service features by the local telephone company, such as 311 or 411 service.

A variety of dial plans may exist within a numbering plan and these often depend on the network architecture of the local telephone operating company.

Within the North American Numbering Plan, the administration defines standard and permissive dialing plans, specifying the number of mandatory digits to be dialed for local calls within the area code, as well as alternate, optional sequences, such as adding the trunk code 1 before the telephone number.

Variable-length dialing[edit]

Despite a closed numbering plan, different dialing procedures exist in many of the territories for local and long distance telephone calls. This means that to call another number within the same city or area, callers need to dial only a subset of the full telephone number. For example in the NANP, only the 7-digit number may need to be dialed, but for calls outside the area, the full number including the area code is required. In these situations, the ITU-T Recommendation E.123 suggests to list the area code in parentheses, signifying that in some cases the area code is optional or is not required. Typically the area code is prefixed by a domestic trunk access code (usually 0) when dialing from inside a country, but is not necessary when calling from other countries, but there are exceptions, such as for Italian land lines.

To call a number in Sydney, Australia for example:

• xxxx xxxx (within Sydney and other locations within New South Wales and the Australian Capital Territory - no area code required)
• (02) xxxx xxxx (outside New South Wales and the Australian Capital Territory, but still within Australia - the area code is required)
• +61 2 xxxx xxxx (outside Australia)

The plus character (+) in the markup is not dialed, it signifies that the following digits are the country code, in this case 61, and that an international access code is required. Mobile telephone service using GSM and other technologies allow the + to be entered and this is internally converted to the correct access code, based on caller location, as the call is placed.

New Zealand has a special case dial plan. While most nations require the area code to be dialed only if it is different, in New Zealand, one needs to dial the area code if the phone is outside the local calling area. For example, the town of Waikouaiti is in the Dunedin City Council jurisdiction, and has phone numbers (03) 465 7xxx. To call the city council in central Dunedin (03) 477 4000, residents must dial the number in full including the area code even though the area code is the same, as Waikouaiti and Dunedin lie in different local calling areas (Palmerston and Dunedin respectively)^[7]

In the United States, Canada, and other countries or territories using the North American Numbering Plan (NANP), the international trunk access code is 1, which is also the country calling code. The same rule also applies in many parts of the NANP, including all areas of Canada that still have variable-length dial plan. This is not universal, as there are locations within the United States that allow long distance calls within the same area code to be dialed as seven digits. In Canada, the domestic trunk code (long distance access code) must also be dialed along with the area code for long distance calls even within the same area code. For example, to call a number in Regina:

• 306 xxx xxxx (within Regina, Lumsden and other local areas)
• 1 306 xxx xxxx (within the 306 area code, but not within the Regina local calling area (e.g., Saskatoon))
• 1 306 xxx xxxx (anywhere within the NANP outside the 306 area code)
• +1 306 xxx xxxx (outside NANP)

To call a number in San Francisco, California the dialing procedure varies:

• xxx xxxx (local or long-distance within area code 415, no area code required)
• 1 415 xxx xxxx (local or long-distance outside of 415 but within the U.S., Canada, and other countries in the NANP)
• +1 415 xxx xxxx (outside the NANP - 1 is the country code for the U.S.)

However, in parts of North America, especially where a new area code overlays an older area code, dialing the area code, or 1 and the area code, is required even for local calls. Dialing from mobile phones is different in the U.S., as the trunk code is not necessary, although it is still necessary for calling all long distance numbers from a mobile phone in Canada. Most mobile phones can be configured to automatically add a frequently-called area code as a prefix, allowing calls within the desired area to be dialed by the user as seven-digit numbers, though sent by the phone as 10-digit numbers.

In some parts of the United States, especially northeastern states such as Pennsylvania served by Verizon Communications, the full 10-digit number must be dialed. If the call is not local, the call will not complete unless the dialed number is preceded by digit 1. In this situation, where the area code is not optional, the area code is not enclosed in parentheses. Thus:

• 610 xxx xxxx (local calls within the 610 area code and its overlay, 484, as well as calls to or from the neighboring 215 area code and its overlay, 267. Area code required; one of two completion options for mobile phones within the U.S.)
• 1 610 xxx xxxx (calls from numbers outside the 610/484 and 215/267 area codes; second of two completion options for mobile phones within the U.S.)
• +1 610 xxx xxxx (outside the NANP)

In California, because of the existence of both overlay area codes (where an area code must be dialed for every call) and non-overlay area codes (where an area code is dialed only for calls outside the subscribers home area code), "permissive home area code dialing" of 1 + the area code within the same area code, even if no area code is required, has been permitted since the mid-2000s (decade). For example, in the 213 area code (a non-overlay area code), calls may be dialed as 7 digits (XXX-XXXX) or 1-213 + 7 digits. The manner in which a call is dialed does not affect the billing of the call. This "permissive home area code dialing" helps maintain uniformity and eliminates confusion given the different types of area code relief that has made California the nation's most "area code" intensive State. Unlike other states with overlay area codes (Texas, Maryland, Florida and Pennsylvania and others), the California Public Utilities Commission maintains two different dial plans: Landlines must dial 1 + area code whenever an Area Code is part of the dialed digits while Cell Phone can omit the "1" and just dial 10 digits.

Many organizations have private branch exchange systems which permit dialing the access digit(s) for an outside line (usually 9 or 8), a "1" and finally the local area code and xxx xxxx in areas without overlays. This aspect is unintentionally helpful for employees who reside in one area code and work in an area code with one, two, or three adjacent area codes. 1+ dialing to any area code by an employee can be done quickly, with all exceptions processed by the private branch exchange and passed onto the public switched telephone network.

Full-number dialing[edit]

In small countries or areas, the full telephone number is used for all calls, even in the same area. This has traditionally been the case in small countries and territories where area codes have not been required. However, there has been a trend in many countries towards making all numbers a standard length, and incorporating the area code into the subscriber's number. This usually makes the use of a trunk code obsolete. For example, to call Oslo in Norway before 1992, one would dial:

• xxx xxx (within Oslo - no area code required)
• (02) xxx xxx (within Norway - outside Oslo)
• +47 2 xxx xxx (outside Norway)

After 1992, this changed to a closed eight-digit numbering plan, e.g.:

• 22xx xxxx (within Norway - including Oslo)
• +47 22xx xxxx (outside Norway)

Therefore in other countries, such as France, Belgium, Japan, Switzerland, South Africa and some parts of North America where the numbering plan is closed, the trunk code is retained for domestic calls, whether local or national, e.g.,

• Paris 01 xx xx xx xx (outside France +33 1 xxxx xxxx)
• Brussels 02 xxx xxxx (outside Belgium +32 2 xxx xxxx)
• Geneva 022 xxx xxxx (outside Switzerland +41 22 xxx xxxx)
• Cape Town 021 xxx xxxx (outside South Africa +27 21 xxx xxxx)
• New York 1 212 xxx xxxx (outside the North American Numbering Plan +1 212 xxx xxxx)
• Fukuoka 092 xxx xxxx (outside the Japanese Numbering Plan +81 92 xxx xxxx)

while some, like Italy, require the initial zero to be dialed, even for calls from outside the country, e.g.,

• Rome 06 xxxxxxxx (outside Italy +39 06 xxxxxxxx)

Further, there are locations with closed dialing plans in the NANP that require the full phone number including area code to be dialed for all calls, but the trunk code is required for only long distance calls, even in the same area code.

While the use of full national dialing is less user-friendly than using only a local number without the area code, the increased use of mobile phones, which can store numbers, means that this is of decreasing importance. It also makes easier to display numbers in the international format, as no trunk code is required—hence a number in Prague, Czech Republic, can now be displayed as:

• 2xx xxx xxx (inside Czech Republic)
• +420 2xx xxx xxx (outside Czech Republic)

as opposed to before September 21, 2002:^[8]

• 02 / xx xx xx xx (inside Czech Republic)
• +420 2 / xx xx xx xx (outside Czech Republic)

Some countries already switched, but trunk prefix re-added with the closed dialing plan, for example in Bangkok, Thailand before 1997:

• xxx-xxxx (inside Bangkok)
• 02-xxx-xxxx (inside Thailand)
• +66 2-xxx-xxxx (outside Thailand)

has been switched in 1997:

• 2-xxx-xxxx (inside Thailand)
• +66 2-xxx-xxxx (outside Thailand)

Trunk prefix has re-added in 2001

• 02-xxx-xxxx (inside Thailand)
• +66 2-xxx-xxxx (outside Thailand)

International numbering plan[edit]

The E.164 standard of the International Telecommunications Union is an international numbering plan and establishes a country calling code (country code) for each member organization. Country codes are prefixes to national telephone numbers that denote call routing to the network of a subordinate number plan administration, typically a country, or group of countries with a uniform numbering plan, such as the NANP. E.164 permits a maximum length of 15 digits for the complete international phone number. E.164 does not define regional numbering plans, however, it does provide recommendations for new implementations and uniform representation of all telephone numbers.

Within the system of country calling codes, the ITU has defined certain prefixes for special services and assigns such codes for independent international networks, such as satellite systems, spanning beyond the scope of regional authorities.

Satellite telephone systems[edit]

Satellite phones are usually issued with numbers in a special country calling code. For example, Inmarsat satellite phones are issued with code +870, while Global Mobile Satellite System providers, such as Iridium, issue numbers in country code +881 ("Global Mobile Satellite System") or +882 ("International Networks"). Some satellite phones are issued with ordinary phone numbers, such as Globalstar satellite phones issued with NANP telephone numbers.

• Inmarsat:+870: SNAC (Single Network Access Code)
• ICO Global: +881 0, +881 1.
• Ellipso: +881 2, +881 3.
• Iridium: +881 6, +881 7.
• Globalstar: +881 8, +881 9.
• Emsat: +882 13.
• Thuraya: +882 16.
• ACeS: +882 20.

+ 88184

Special services[edit]

Some country calling codes are issued for special services, or for international/inter regional zones.

• +388 5 – shared code for groups of nations
• +388 3 – European Telephony Numbering Space – Europe-wide services (discontinued)
• +800 – International Freephone (UIFN)
• +808 – reserved for Shared Cost Services
• +878 – Universal Personal Telecommunications services
• +881 – Global Mobile Satellite System
• +882 and +883 – International Networks
• +888 - international disaster relief operations
• +979 – International Premium Rate Service
• +991 – International Telecommunications Public Correspondence Service trial (ITPCS)
• +996 9 - Kyrgyzstan PG.R.S. Server
• +999 – reserved for future global service

Numbering plan indicator[edit]

The numbering plan indicator (NPI) is a number which is defined in the ITU standard Q.713, paragraph 3.4.2.3.3, indicating the numbering plan of the attached telephone number. NPIs can be found in Signalling Connection Control Part (SCCP) and short message service (SMS) messages. As of 2004^[update], the following numbering plans and their respective numbering plan indicator values have been defined:

NPI	Description	Standard
0	unknown
1	ISDN Telephony	E.164
2	generic
3	data	X.121
4	telex	F69
5	maritime mobile	E.210 and E.211
6	land mobile	E.212
7	ISDN/mobile	E.214

Private numbering plan[edit]

Like a public telecommunications network, a private telephone network in an enterprise or within an organizational campus may implement a private numbering plan for the installed base of telephones for internal communication. Such networks operate a private switching system or a private branch exchange (PBX) within the network. The internal numbers assigned are often called extension numbers, as the internal numbering plan extends an official, published main access number for the entire network. A caller from within the network only dials the extension number assigned to another internal destination telephone.

A private numbering plan provides the convenience of mapping station telephone numbers to other commonly used numbering schemes in an enterprise. For example, station numbers may be assigned as the room number of a hotel or hospital. Station numbers may also be strategically mapped to certain keywords composed from the letters on the telephone dial, such as 4357 (help) to reach a help desk.

The internal number assignments may be independent of any direct inward dialing (DID) services provided by external telecommunication vendors. For numbers without DID access, the internal switch relays externally originated calls via an operator, an automated attendant or an electronic interactive voice response system. Telephone numbers for users within such a systems are often published by suffixing the official telephone number with the extension number, e.g., 1-800-555-0001 x2055. Some systems may automatically map a large block of DID numbers (differing only in a trailing sequence of digits) to a corresponding block of individual internal stations, allowing each of them to be reached directly from the public switched telephone network.

Callers within a private numbering plan often dial a trunk prefix to reach a national or international destination (outside line) or to access a leased line (or tie-line) to another location within the same enterprise. A large manufacturer with factories and offices in multiple cities may use a prefix (such as '8') followed by an internal routing code to indicate a city or location, then an individual four or five-digit extension number at the destination site. A common trunk prefix for an outside line on North American systems is the digit 9, followed by the outside destination number.

Additional dial plan customisations, such as single digit access to a hotel front desk or room service from an individual room, are available at the sole discretion of the PBX owner.

See also[edit]

• Telephone numbers by country
• List of North American Numbering Plan area codes for the U.S., Canada, Caribbean, and Pacific Ocean islands
• List of dialling codes in the United Kingdom
• Carrier access code
• Telephone numbers in the Americas
• Telephone numbers in Oceania
• Telephone numbers in Europe
• Telephone numbers in Asia
• Telephone numbers in Africa
• Telephone numbers in Australia

References[edit]

External links[edit]

• List of ITU LEGAL TIME as of 1 May 2013
• List of ITU-T Recommendation E.164 assigned country codes as of 1 Nov 2011
• of ITU-T Recommendation E.164 Dialling Procedures as of 15 DEC 2011
• World Telephone Numbering Guide
• http://www.worldcoder.com.bo
• Free U.S. and Canadian Area Codes and Time Zone Lists

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Zworykin Network topology Links Nodes Terminal node Transmission media Coaxial cable Free-space optical Optical fiber Radio waves Telephone lines Terrestrial microwave Switching Circuit switching Packet switching Telephone exchange Network switch Multiplexing Space-division multiplexing Frequency-division multiplexing Time-division multiplexing Polarization-division multiplexing Orbital angular momentum multiplexing Code division multiplexing Networks ARPANET BITNET Computer Ethernet FidoNet Internet ISDN LAN Mobile NGN Public Switched Telephone Radio Telecommunications equipment Television Telex WAN Wireless World Wide Web Geographic v t e Telecommunications in Africa Sovereign states Algeria Angola Benin Botswana Burkina Faso Burundi Cameroon Cape Verde Central African Republic Chad Comoros Democratic Republic of the Congo Republic of the Congo Djibouti Egypt Equatorial Guinea Eritrea Ethiopia Gabon The Gambia Ghana Guinea Guinea-Bissau Ivory Coast (Côte d'Ivoire) Kenya Lesotho Liberia Libya Madagascar Malawi Mali Mauritania Mauritius Morocco Mozambique Namibia Niger Nigeria Rwanda São Tomé and Príncipe Senegal Seychelles Sierra Leone Somalia South Africa South Sudan Sudan Swaziland Tanzania Togo Tunisia Uganda Zambia Zimbabwe States with limited recognition Sahrawi Arab Democratic Republic Somaliland Dependencies and other territories Canary Islands / Ceuta / Melilla / Plazas de soberanía (Spain) Madeira (Portugal) Mayotte / Réunion (France) Saint Helena / Ascension Island / Tristan da Cunha (United Kingdom) Western Sahara v t e Telecommunications in Asia Sovereign states Afghanistan Armenia Azerbaijan Bahrain Bangladesh Bhutan Brunei Burma (Myanmar) Cambodia China Cyprus East Timor (Timor-Leste) Egypt Georgia India Indonesia Iran Iraq Israel Japan Jordan Kazakhstan North Korea South Korea Kuwait Kyrgyzstan Laos Lebanon Malaysia Maldives Mongolia Nepal Oman Pakistan Philippines Qatar Russia Saudi Arabia Singapore Sri Lanka Syria Tajikistan Thailand Turkey Turkmenistan United Arab Emirates Uzbekistan Vietnam Yemen States with limited recognition Abkhazia Nagorno-Karabakh Northern Cyprus Palestine South Ossetia Taiwan Dependencies and other territories British Indian Ocean Territory Christmas Island Cocos (Keeling) Islands Hong Kong Macau v t e Telecommunications in Europe Sovereign states Albania Andorra Armenia Austria Azerbaijan Belarus Belgium Bosnia and Herzegovina Bulgaria Croatia Cyprus Czech Republic Denmark Estonia Finland France Georgia Germany Greece Hungary Iceland Ireland Italy Kazakhstan Latvia Liechtenstein Lithuania Luxembourg Macedonia Malta Moldova Monaco Montenegro Netherlands Norway Poland Portugal Romania Russia San Marino Serbia Slovakia Slovenia Spain Sweden Switzerland Turkey Ukraine United Kingdom States with limited recognition Abkhazia Kosovo Nagorno-Karabakh Northern Cyprus South Ossetia Transnistria Dependencies and other territories Åland Faroe Islands Gibraltar Guernsey Jersey Isle of Man Svalbard Other entities European Union v t e Telecommunications in North America Sovereign states Antigua and Barbuda Bahamas Barbados Belize Canada Costa Rica Cuba Dominica Dominican Republic El Salvador Grenada Guatemala Haiti Honduras Jamaica Mexico Nicaragua Panama Saint Kitts and Nevis Saint Lucia Saint Vincent and the Grenadines Trinidad and Tobago United States Dependencies and other territories Anguilla Aruba Bermuda Bonaire British Virgin Islands Cayman Islands Curaçao Greenland Guadeloupe Martinique Montserrat Navassa Island Puerto Rico Saint Barthélemy Saint Martin Saint Pierre and Miquelon Saba Sint Eustatius Sint Maarten Turks and Caicos Islands United States Virgin Islands v t e Telecommunications in Oceania Sovereign states Australia Fiji Kiribati Marshall Islands Federated States of Micronesia Nauru New Zealand Palau Papua New Guinea Samoa Solomon Islands Tonga Tuvalu Vanuatu Dependencies and other territories American Samoa Christmas Island Cocos (Keeling) Islands Cook Islands Easter Island French Polynesia Guam Hawaii New Caledonia Niue Norfolk Island Northern Mariana Islands Pitcairn Islands Tokelau Wallis and Futuna v t e Telecommunications in South America Sovereign states Argentina Bolivia Brazil Chile Colombia Ecuador Guyana Paraguay Peru Suriname Trinidad and Tobago Uruguay Venezuela Dependencies and other territories Aruba Bonaire Curaçao Falkland Islands French Guiana South Georgia and the South Sandwich Islands