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Trunk prefix
Trunk prefix
Trunk prefix
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A trunk prefix is a digit sequence to be dialled before a telephone number to initiate a telephone call for the purpose of selecting an appropriate telecommunications circuit by which the call is to be routed.[1]

Making a domestic (national) telephone call usually requires the dialling of a single or two-digit national trunk prefix preceding any area codes and the destination subscriber number. In most countries, the trunk prefix is 0.

For international telephone calls, the national trunk prefix is not dialled; instead, an international trunk prefix (or "+") is typically required, followed by the destination's country code.

Example

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Further information: National conventions for writing telephone numbers

This example assumes that a call is to be made to a customer in the Australian state of Queensland with the local number 3333 3333 and the area code 7.

A caller from outside Australia must dial the international call prefix of the originating country and the country code (61 for Australia), then the area code (7), and then the local subscriber number. Therefore, a caller in the UK must dial 00 61 7 3333 3333, while a caller in the US must dial 011 61 7 3333 3333.

Calling inter-area (within Australia) (e.g., from Western Australia with area code 8), a caller need not dial an international trunk prefix or a country code. Instead, the caller must at least dial the Australian trunk prefix (0) followed by the area code (7) and then the local subscriber number: 07 3333 3333. Calling from within the Queensland (7) area, a caller need only dial the telephone number: 3333 3333.

However, since the early 21st century, the majority of telephone systems worldwide can recognise the area of origin of the call, its direction and destination to facilitate communication faster. If the full international number is used, then this full international number may be dialled from nearly any telephone within a recognisable landline or mobile network. This has become particularly vital for users of mobile phones.

When conducting business, e.g., for display on business cards or stationery, a telephone number is represented as +61 7 3333 3333, and includes only the digits that must be dialled internationally. The plus sign indicates that an international trunk prefix is first dialled and, therefore, a country code follows.

Countries using national trunk prefixes

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Countries that use 0 as national trunk prefix

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Africa

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South America

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Asia

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Europe

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Oceania

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Countries that use 8 as national trunk prefix

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Countries that use other trunk prefixes

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The number next to a country denotes its national trunk prefix.

Countries that no longer use a national trunk prefix

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See also

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References

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Revisions and contributorsEdit on WikipediaRead on Wikipedia

Trunk prefix

View on Grokipedia
from Grokipedia
A trunk prefix, also referred to as a national trunk prefix, is the digit or combination of digits that must be dialed before an area code when making a call to a subscriber within the same country or integrated numbering area but outside the caller's local numbering area. This prefix provides access to the automatic outgoing trunk equipment in the , enabling the routing of domestic long-distance calls through the appropriate trunk lines. It is distinct from the international prefix, which is used for calls abroad and replaces the national trunk prefix in international dialing. The use of trunk prefixes originated with the development of automated telephone switching systems in the early , allowing callers to select trunk connections without operator assistance. The (ITU) recommends that countries adopting or revising a trunk prefix use a single digit, preferably "0", to standardize national dialing procedures and facilitate interoperability. In World Numbering Zone 1 (), the trunk prefix is "1", which coincides with the international for the region, necessitating careful notation to avoid confusion in international contexts. Trunk prefixes vary by country and may not be required in nations with closed numbering plans, where a uniform national number length eliminates the need for area codes and thus the prefix. For example, in open dialing plans common in many countries, the prefix ensures efficient call between different numbering zones within a nation. As evolves with digital and mobile networks, trunk prefixes continue to play a role in legacy fixed-line systems, though modern VoIP and mobile services often abstract or automate their use.

Definition and Purpose

What is a Trunk Prefix

A trunk prefix, also known as a domestic long-distance prefix, is a digit or of digits dialed before the area code and subscriber number when making calls to destinations outside the local area but within the same country. It serves as an indicator to the that the call requires routing beyond the immediate local exchange. In basic operation, the trunk prefix signals the to direct the call through trunk lines, which are dedicated communication links designed to carry multiple signals simultaneously between switching centers for long-distance transmission within the country. For instance, , dialing 1 before the area code and number routes long-distance calls via the infrastructure. Similarly, in the , the prefix 0 is used before the area code for national calls outside the local zone. The trunk prefix integrates with a country's national numbering plan, which aligns with the E.164 standard for international telecommunication numbering; under , the full national (significant) number—comprising the area code and subscriber number—excludes the trunk prefix to ensure consistent global dialing. This omission is essential when placing international calls, where the trunk prefix is replaced by the international prefix (such as 00 or 011) followed by the . Trunk prefixes are commonly a single digit from 0 to 9, though they can consist of multiple digits in certain national systems where needed to distinguish call types or carriers. Regardless of format, the prefix must always be excluded from the national number when dialing internationally to comply with formatting.

Role in National Calling

In national , the trunk prefix serves as the initial digit or sequence dialed to access the domestic trunk network, followed by the area code and subscriber number. For example, in , a caller from outside the region dials 0 (trunk prefix) + 1 (area code for Paris) + the eight-digit local number, such as 01 23 45 67 89, to complete the connection. This procedure ensures the call is recognized as national rather than local, enabling proper routing across regional boundaries. The trunk prefix instructs telephone switches to route the call through higher-capacity inter-exchange trunk lines instead of local loops, which helps prevent congestion on regional networks designed for shorter-distance traffic. By signaling a long-distance destination, it directs the call to appropriate trunk exchanges where further analysis of the area code occurs. In systems supporting multiple carriers, the trunk prefix may be followed by a carrier selection code (CSC), such as a two-digit identifier, allowing the caller to choose a specific long-distance provider for the route; for instance, in some European networks, the sequence is trunk prefix + CSC + area code + subscriber number. This mechanism optimizes bandwidth allocation and supports competitive carrier environments without altering the core national numbering plan. The requirement for a trunk prefix varies by call type and network plan. It is essential for fixed-line long-distance calls in open numbering plans, where local calls omit the prefix and area to distinguish short-haul from long-haul routing. However, in closed numbering plans—common for mobile networks and flat-rate domestic services—callers dial the full national significant number (area code + subscriber number) without a separate trunk prefix, as the network interprets the entire sequence uniformly regardless of distance; mobile-to-mobile calls within the same country often follow this pattern, treating all domestic destinations as a single . Additionally, trunk prefixes are typically suppressed in displays to present the recipient with the caller's local number format, avoiding confusion in call logs. Omitting the trunk prefix during a national long-distance attempt results in the call being processed as local, potentially failing to connect if the dialed digits match a non-existent local subscriber or routing the call to an unintended short-distance endpoint. Misusing the prefix, such as including it erroneously in an international dial (e.g., dialing a domestic trunk prefix before a country code), can cause misrouting to a national trunk network instead of the international gateway, leading to call rejection or redirection with an error tone. These error conditions highlight the prefix's role in unambiguous call classification by the originating switch.

Historical Development

Origins in Analog Telephony

The trunk prefix originated with the development of automated telephone switching systems in the early , enabling callers to select trunk connections without operator assistance. In the United States, the American Telephone and Telegraph Company (), incorporated in to manage long-distance services, established the first interconnected interstate network by 1892, which initially relied on operator-assisted trunk lines for calls spanning multiple exchanges. These early trunk calls were routed through dedicated lines connecting switchboards, addressing the limitations of analog transmission over wires and the need for efficient operator coordination in growing networks. In , trunk prefixes like 0 emerged in the 1920s to automate and distinguish long-distance calls from local ones amid increasing demand for inter-regional connectivity. For instance, in the , the digit 0 was introduced as a trunk prefix in in 1928 alongside the rollout of automatic director exchanges, allowing operators to route calls more efficiently without manual intervention for every connection. This facilitated the transition from fully manual systems, where operators used cords to patch trunk lines, to semi-automated processes that reduced delays in analog signaling. The purpose was to streamline operator-assisted trunk calls, as networks strained under the electromechanical constraints of step-by-step switches and limited analog line capacity. Standardization efforts gained momentum through the (ITU) and its predecessors, the International Consultative Committee for (CCIF) and (CCIT), which merged into the CCITT in 1956. From to , these bodies issued recommendations for national numbering plans to harmonize trunk access amid global network growth, advocating the digit 0 as a common trunk prefix to simplify in analog systems. Australia's introduction of (STD) in the early 1960s, using 0 to enable direct dialing over trunk networks limited by electromechanical switches and the practical constraint of 10-digit numbering for efficient . These prefixes improved by signaling trunk selection early in the dialing sequence, optimizing bandwidth on shared analog lines and reducing congestion in operator-heavy systems.

Evolution with Digital and Mobile Networks

The transition to digital in the and marked a significant shift in the role of trunk prefixes, as the introduction of electronic exchanges and advanced signaling protocols like Signaling System No. 7 (SS7) enabled more efficient, intelligent call routing. SS7, standardized by the (ITU) in the , utilized out-of-band signaling to separate control messages from voice paths, allowing networks to perform database-driven routing and rapid call setup without relying heavily on specific dialed prefixes to access trunk lines. This reduced the operational necessity for trunk prefixes in many systems, as digital switches could interpret destination information more dynamically, streamlining national dialing procedures. In regions like the , the 1990s reforms exemplified partial retention of trunk prefixes amid digital modernization. On April 16, 1995, an extra "1" was inserted after the trunk prefix "0" in all geographic area codes to expand capacity, transforming codes such as Birmingham's 021 to 0121 while preserving the "0" for national access. Similarly, in the (NANP), the trunk prefix "1" remained integrated for long-distance calls, evolving with digital enhancements like protocols in the 2020s to combat spoofing in IP networks, without widespread elimination. The rise of mobile networks from the onward further eroded the relevance of trunk prefixes, as flat-rate calling plans blurred distinctions between local and national calls, diminishing the need for prefixes to signal long-distance access. Concurrently, regulatory updates to Recommendation in the promoted uniform global numbering structures up to 15 digits, encouraging closed dialing plans that eliminated separate trunk prefixes to save digits and simplify procedures. A notable example occurred in in 2005, when the trunk prefix "9" was absorbed into subscriber numbers, transitioning to direct 10-digit dialing without a distinct prefix for national calls, aligning with digital convergence and VoIP growth. By the 2000s, Voice over IP (VoIP) technologies, particularly Session Initiation Protocol (SIP) trunking, accelerated the bypass of traditional Public Switched Telephone Network (PSTN) infrastructure, rendering trunk prefixes obsolete in IP-based systems. SIP trunking connects private branch exchanges directly to the internet, eliminating physical lines and associated dialing prefixes, with providers like AT&T planning to phase out half of copper PSTN lines by 2025 in favor of digital alternatives. Globally, this evolution has driven a trend toward closed numbering plans without trunk prefixes in numerous countries, enhancing efficiency in converged fixed-mobile-IP environments.

Current Usage by Prefix Type

Countries Using 0 as Trunk Prefix

Many countries around the world utilize 0 as the national trunk prefix for initiating domestic long-distance calls, allowing callers to access numbers outside their local area without international dialing. This prefix is typically omitted when making international calls to those . As of 2025, approximately 62 employ 0 in this manner, often in networks where historical standards persist, particularly in developing regions. In , the use of 0 as a trunk prefix is widespread across both fixed-line and mobile networks, with variations in national significant number (NSN) lengths depending on the destination type. For instance, requires dialing 0 followed by 8-9 digit numbers for long-distance calls, while uses 0 plus 9 digits. employs 0 before 7-9 digit numbers, accommodating differences between urban fixed lines and mobile services, and follows with 0 + 9 digits. Ghana's system includes 0 + 5-9 digits, reflecting expansions for mobile integration. These patterns highlight adaptations in post-colonial telecom infrastructures to handle growing mobile penetration. Asia features extensive adoption of the 0 trunk prefix, especially in populous nations with diverse numbering plans. Afghanistan dials 0 + 9 digits for domestic long-distance, Bangladesh uses 0 + 6-10 digits to distinguish fixed and mobile, and China applies 0 before 5-12 digit numbers across its vast regional codes. India continues to use 0 + 10 digits. Indonesia follows with 0 + 10-12 digits, supporting its archipelago-wide connectivity. This prevalence supports efficient routing in high-volume, hybrid analog-digital systems common in the region. European countries maintain 0 as the trunk prefix in many legacy systems, often with variable NSN lengths to accommodate unified national numbering. dials 0 + 4-13 digits, uses 0 + 9 digits—for example, a typical call might be formatted as 0-1-23-45-67-89—and employs 0 + 6-13 digits for its decentralized area codes. requires 0 + 10 digits, while uses 0 + 6-10 digits, with mobile numbers sometimes treated uniformly. These systems evolved from early 20th-century standards but remain integral to intra-EU roaming and fixed-line services. North American usage of 0 as a trunk prefix is limited, primarily confined to certain nations outside the (NANP). , for example, dials 0 + 6-8 digits for inter-area calls, distinguishing it from NANP countries like the and , which predominantly use 1. This isolated application reflects Cuba's independent telecom development amid regional standardization efforts. In and , 0 serves as the trunk prefix in several key markets, with some variations for carrier selection or mobile access. uses 0 + 10 digits, dials 0 followed by a 9-digit national number (total 10 digits) to cover its sparse population distribution, and employs 0 + 10 digits across its federal structure. partially retains 0 but incorporates a 1YZ variant for certain long-distance routes, blending old and new prefixes. These implementations facilitate connectivity in geographically diverse areas, often prioritizing fixed-to-mobile transitions. Overall, the trunk prefix is predominant in developing and transitional networks, enabling cost-effective domestic while interfacing with international standards via the framework. Its persistence in approximately 62 countries underscores a balance between legacy compatibility and modern VoIP integration, though some nations are exploring unification to eliminate prefixes entirely.

Countries Using 1 as Trunk Prefix

The (NANP) serves as the primary framework for countries using 1 as the trunk prefix, encompassing the , , and 18 other countries and territories primarily in the and North Atlantic, for a total of 20 entities as of 2025. In this system, domestic long-distance calls require dialing the trunk prefix 1 followed by a 10-digit number, which includes a three-digit area code (Numbering Plan Area or NPA code) and a seven-digit subscriber number. This standardized format facilitates seamless connectivity across the plan's member regions, with the prefix 1 signaling the network to route the call over long-distance circuits. In the United States, dialing 1 has been mandatory for all long-distance calls since the nationwide rollout of Direct Distance Dialing in the 1960s, building on the initial implementation of the NANP in 1947. For example, a call from New York to a Washington, D.C. number would be placed as 1-202-555-0123. Canada similarly employs 1 followed by 10 digits for nationwide long-distance calls, with ten-digit dialing (area code plus seven digits) becoming mandatory in many regions starting in the early 2000s to accommodate area code overlays and number exhaustion. Territories such as Anguilla use 1-264 followed by seven digits, while the Bahamas employs 1-242 plus seven digits, integrating these areas into the broader NANP structure. A distinctive feature of the NANP is that the trunk prefix 1 doubles as the shared international for all member countries, enabling uniform handling of both domestic long-distance and outbound international calls to other NANP destinations. without the leading 1 is required for local calls within the same area code, though many systems now mandate 10 digits universally for local calls in overlaid regions since the . For mobile-to-mobile or certain intra-network calls, the 1 may be omitted in practice, but the full 1 + 10-digit format remains the standard for consistency. Callers can also select alternative long-distance carriers by prefixing the number with access codes such as 101XXXX, where XXXX represents the carrier identification code (CIC), allowing choice beyond the default presubscribed provider. No major phase-out of the 1 trunk prefix is planned, as the NANP's integration supports ongoing number and expansion needs across its 20 entities.

Countries Using 8 or Other Digits as Trunk Prefix

In several , the digit 8 serves as the national trunk prefix for domestic long-distance calls, a practice inherited from the Soviet-era system and maintained for compatibility with existing . This prefix is typically followed by a pause or before the area code and subscriber number, distinguishing it from local dialing. As of 2025, this system remains in use without widespread migration, though discussions on harmonization with international standards continue in regional forums. has plans to transition to 0, but 8 remains in use as of November 2025. Russia exemplifies this usage, where the trunk prefix 8 is dialed before the 3- to 5-digit area code and 5- to 7-digit local number, resulting in a total national number length of 10 digits. For instance, to call a number from within , one dials 8 (pause for tone), followed by the area code 495 and the subscriber number, such as 8 495 123-45-67. This format supports both fixed-line and mobile calls, with the international +7 replacing the 8 for inbound international dialing. The system has been stable since the early 2000s, accommodating 's vast geographic area codes ranging from 3xx to 9xx. Belarus employs a similar structure, using 8 as the trunk prefix followed by a 9- or 10-digit national number, including area codes like 17 for . Domestic calls thus follow the pattern 8 + area code + subscriber number, with a total length of up to 10 digits; for example, 8 17 123-45-67 for a landline. This aligns with the country's +375 international code, where the 8 is omitted for international access. The prefix facilitates calls across Belarus's regional codes, which vary from 2 to 3 digits. Kazakhstan also utilizes 8 as the trunk prefix for its 10-digit national numbering plan, dialed before the 1- to 3-digit area code and remaining digits. A typical call from another region would be 8 727 123-45-67, where 727 is the area code. Sharing the +7 with , Kazakhstan's system requires the 8 only for domestic long-distance; international calls use +7 directly. This setup covers the country's expansive codes, such as 717 for . Turkmenistan follows suit with 8 as the trunk prefix preceding an 8-digit national number, often structured as 8 + 3-digit area code + 5-digit subscriber. For calls, the format is 8 12 123-45, under the +993 international code. This concise plan supports 's limited regional divisions, with the prefix essential for inter-area connectivity. Beyond the digit 8, some countries incorporate other digits or codes in trunking variations, often tied to carrier selection for long-distance calls. In , while the base trunk prefix is 0, long-distance dialing requires a preceding carrier code—typically 3 digits starting with 1, such as 123 for Entel or 188 for VTR—followed by 0 and the 8- or 9-digit national number (area code + subscriber). For example, a Santiago call via Entel might be 123 0 2 1234567, supporting Chile's +56 international format with total lengths of 8 to 9 digits. This hybrid system allows competition among providers but adds complexity to domestic routing. Colombia historically used 09 as a trunk prefix for long-distance calls prior to reforms in the mid-2000s, but it has since transitioned to 0 followed by a 1- or 3-digit carrier code (e.g., 05 for ETB), creating a variable prefix structure for its 10-digit national numbers. A call today might be 0 1 123 4567 via a carrier starting with 1, under the +57 code; the older 09 format is now phased out but noted in legacy systems. This evolution reflects efforts to integrate carrier selection while standardizing to 10 digits nationwide. These non-standard prefixes represent exceptions to the more common 0 or 1 usage, affecting a few countries, such as , , , , and (with carrier codes). They often integrate with carrier selection and are under periodic review for alignment with ITU recommendations, though no major shifts have occurred by 2025.

Phased-Out or Absent National Trunk Prefixes

Reasons for Discontinuation

The discontinuation of national trunk prefixes in telephony stems primarily from technological advancements that enable more efficient call routing without the need for such indicators. Digital switching systems, coupled with signaling protocols like Signaling System No. 7 (SS7), allow networks to analyze the full dialed number and route calls directly to local or long-distance destinations based on predefined numbering structures, rendering the prefix obsolete for distinguishing call types. Similarly, the rise of Voice over IP (VoIP) technologies utilizing Session Initiation Protocol (SIP) further eliminates the requirement, as calls are normalized to E.164-compliant formats for routing without user-dialed prefixes, a shift prominent in business adoption post-2000. These developments, integrated with closed or unified national numbering plans, permit dialing the national significant number alone, as seen in countries adopting single nationwide schemes where area codes suffice without an additional access digit. Economically, the proliferation of flat-rate calling plans has eroded the original purpose of trunk prefixes, which historically facilitated differentiated billing for local versus long-distance calls. By the , such plans became ubiquitous in many markets, charging uniform rates regardless of distance and thereby removing incentives to maintain prefix-based distinctions that could lead to billing complexities. This shift also mitigates consumer confusion and dialing errors associated with remembering when to include or omit prefixes, streamlining in an era of simplified tariffs. Regulatory factors have accelerated the phase-out through international standards promoting numbering efficiency. The (ITU) has advocated for streamlined E.164-compliant plans that minimize unnecessary digits, recommending revisions to trunk prefixes—or their elimination—during national numbering reforms to enhance global interoperability and support modern digital infrastructures. Social influences, including the explosive growth of with over 100% subscription penetration globally by the mid-2020s, have further diminished reliance on fixed-line prefixes, as mobile dialing consistently uses full national numbers without them, aligning fixed networks to similar simplicity. The timeline of discontinuation reflects these converging factors, with major reforms occurring in the 1990s across as digital networks expanded, followed by widespread adoption in and during the amid VoIP integration and regulatory updates. Many countries, primarily those with unified numbering areas, now operate without active national trunk prefixes.

Countries Without Active Trunk Prefixes

Several countries have discontinued national trunk prefixes or never implemented them, opting instead for closed numbering plans that enable direct dialing of the full national significant number for all domestic calls, regardless of distance. This approach simplifies dialing procedures and aligns with modern infrastructure. In , employs direct dialing of 6 to 9 digits without a trunk prefix, allowing seamless connections across its small network. Similarly, uses a uniform 8-digit format for all domestic calls, eliminating the need for any additional prefix since the adoption of its closed plan. In , transitioned to direct 10-digit dialing nationwide on August 3, 2019, removing the previous 01 prefix for long-distance calls and standardizing the system for efficiency. Outside the , also relies on direct 8-digit dialing without a trunk prefix, supporting both fixed and mobile numbers uniformly. and feature several examples of such systems, particularly in smaller or streamlined networks. mandates direct 8-digit dialing for all domestic calls, bypassing any trunk code. In and surrounding islands, many small nations like utilize direct 7-digit formats, facilitating quick access without prefixes. In and , eliminated area codes and long-distance prefixes in 2010, implementing direct 8-digit dialing for the entire country. This regional pattern reflects a broader global shift, where a significant number of countries—primarily small states, micro-nations, and those with advanced digital networks—have never introduced trunk prefixes, favoring direct dialing or emerging alternatives like VoIP and app-based services such as for domestic communication. As of 2025, this trend persists amid the expansion of and IP-based telephony, reducing reliance on traditional prefixes further.

References

  1. https://www.itu.int/en/ITU-T/inr/forms/Pages/dialling.aspx
  2. https://www.itu.int/dms_pub/itu-t/opb/sp/t-sp-e.164c-2011-pdf-e.pdf
  3. https://learn.microsoft.com/en-us/globalization/locale/telephone-numbers
  4. https://www.techtarget.com/searchnetworking/definition/trunk
  5. https://www.fcc.gov/consumers/guides/international-long-distance-calling-made-simple-tip-sheet
  6. https://www.ofcom.org.uk/siteassets/resources/documents/phones-telecoms-and-internet/information-for-industry/numbering/other/national-numbering-plan.pdf
  7. https://www.itu.int/rec/T-REC-E.164/en
  8. https://www.etsi.org/deliver/etsi_tr/101000_101099/101092/01.01.01_60/tr_101092v010101p.pdf
  9. https://docdb.cept.org/download/620
  10. https://www.joinvip.com/blog/history-of-long-distance-calling
  11. http://s-media.nyc.gov/agencies/lpc/lp/1747.pdf
  12. https://www.britishtelephones.com/histuk.htm
  13. https://www.itu.int/ITU-D/treg/Documentation/Milne_Numbering.pdf
  14. https://www.itu.int/en/history/Documents/itu-history-overview.pdf
  15. https://oldaustraliantelephones.weebly.com/australian-telephony---history.html
  16. https://netmillsms.com/signaling-system-7-ss7-a-detailed-guide/
  17. https://telephonesuk.org.uk/history/
  18. https://www.bandwidth.com/glossary/north-american-numbering-plan-nanp/
  19. http://www.antelopeweb.fmail.co.uk.user.fm/publications/Numbering%20for%20convergence%20in%20Colombia.pdf
  20. https://www.sip.us/blog/latest-news/sip-trunking-vs-pstn/
  21. https://www.globalcallforwarding.com/international-call-prefixes/
  22. https://www.unitedworldtelecom.com/blog/india-phone-number-guide/
  23. https://www.acepeak.ai/blog/france-phone-number-example/
  24. https://howtophoneto.com/cuba/
  25. https://www.nanpa.com/
  26. https://www.corp.att.com/bvoip/wp-content/themes/bvoip/ipflex/docs/dial_plan_guide.pdf
  27. https://horizonelectronics.com/north-american-numbering-plan/
  28. https://www.nanpa.com/resources/area-code-maps
  29. https://crtc.gc.ca/eng/phone/num.htm
  30. https://www.itu.int/dms_pub/itu-t/oth/02/02/T02020000070001MSWE.doc
  31. https://www.urcabahamas.bs/wp-content/uploads/2017/01/The-Bahamas-National-Numbering-Plan.pdf
  32. https://www.globalcallforwarding.com/blog/nanp-north-american-numbering-plan-explained/
  33. https://www.fibernetics.ca/area-codes/
  34. https://www.nanpa.com/sites/default/files/planning_letters/IL-95-01-018.pdf
  35. https://howtophoneto.com/russia/
  36. https://www.countrycallingcodes.com/country.php?country=russia
  37. http://chartsbin.com/view/zg0
  38. https://howtophoneto.com/belarus/
  39. https://www.countrycallingcodes.com/country.php?country=belarus
  40. https://howtophoneto.com/kazakhstan/
  41. https://howtophoneto.com/turkmenistan/
  42. https://www.countrycallingcodes.com/country.php?country=Turkmenistan
  43. https://www.thegamesteward.com/pages/trunk-code
  44. https://www.howtocallabroad.com/chile/
  45. https://howtophoneto.com/colombia/
  46. https://www.countrycallingcodes.com/country.php?country=colombia
  47. https://www.itu.int/en/ITU-D/Statistics/Pages/stat/default.aspx
  48. https://howtophoneto.com/andorra/
  49. https://howtophoneto.com/denmark/
  50. https://www.fcc.gov/sites/default/files/mexico-mobile-dialing-from-us.pdf
  51. https://howtophoneto.com/costa-rica/
  52. https://howtophoneto.com/fiji/
  53. https://howtophoneto.com/uruguay/
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