Table Of Contents
Cisco CallManager International Dial Plan Deployment Guide
Contents
Introduction
Dial Plans Path
Software Compatibility
Installing a Dial Plan on Cisco CallManager
Uninstalling a Dial Plan
Related Documentation
Special Characters and Settings
Route Pattern Wildcards and Special Characters
Discard Digits Instructions
Tag Descriptions
Japanese Numbering Plan
Discard Digits Instructions for JPNP
Tag Descriptions for JPNP
Netherlands Numbering Plan
Discard Digits Instructions for NLNP
Tag Descriptions for NLNP
Portuguese Numbering Plan
Discard Digits Instructions for PTNP
Tag Descriptions for PTNP
Singapore Numbering Plan
Discard Digits Instructions for SGNP
Tag Descriptions for SGNP
Australian Numbering Plan
Discard Digits Instructions for AUNP
Tag Descriptions for AUNP
Russian Numbering Plan
Discard Digits Instructions for RUNP
Tag Descriptions for RUNP
New Zealand Numbering Plan
Discard Digits Instructions for NZNP
Tag Descriptions for NZNP
Obtaining Documentation
Cisco.com
Documentation CD-ROM
Ordering Documentation
Documentation Feedback
Obtaining Technical Assistance
Cisco Technical Support Website
Opening a TAC Case
TAC Case Priority Definitions
Obtaining Additional Publications and Information
Cisco CallManager International Dial Plan Deployment Guide
Contents
• Introduction
• Installing a Dial Plan on Cisco CallManager
• Special Characters and Settings
• Route Pattern Wildcards and Special Characters
• Japanese Numbering Plan
• Netherlands Numbering Plan
• Portuguese Numbering Plan
• Singapore Numbering Plan
• Australian Numbering Plan
• Russian Numbering Plan
• New Zealand Numbering Plan
• Obtaining Documentation
Introduction
The Cisco CallManager International Dial Plan Deployment Guide specifies dial plan details for certain countries other than North America. This guide describes route pattern wildcards, special characters, calling party transformation settings, and called party transformation settings that apply to dial plans. It also describes the Discard Digit Instructions (DDIs) and tags that are used by dial plans of specific countries.
Dial Plans Path
You can find dial plans that you can download, install, and integrate with Cisco CallManager systems at the following URL:
http://www.cisco.com/cgi-bin/tablebuild.pl/IDP
For details on how to download and install a dial plan from this location, see "Installing a Dial Plan on Cisco CallManager" section.
Software Compatibility
You can install and integrate dial plans with Cisco CallManager version 3.3(4) and later.
Configuring Route Pattern Details for a non-NANP Dial Plan
If you have installed a non-NANP dial plan on your Cisco CallManager system, you can choose the required dial plan when you set up route pattern details in the Route Details Configuration window in Cisco CallManager.
Note the following points when you configure route pattern details:
1. For a non-NANP dial plan, if you want to retain the settings at the Route Pattern level, do one of the following in the Route Details Configuration window:
a. Choose NANP in the Dial Plan field and choose None in the Discard Digits field. Choosing "None" DDI in the Discard Digits field represents the same as not choosing a dial plan.
b. Choose a non-NANP dial plan and choose No Digits in the Discard Digits field. (The default specifies No Digits).
2. If you want to specify settings at the Route Group level that will override the Route Pattern settings, choose any dial plan in the Dial Plan field and choose the appropriate DDI in the Discard Digits field.
Installing a Dial Plan on Cisco CallManager
Use the following procedure to install a dial plan on a Cisco CallManager system.
Procedure
Step 1 Locate the dial plan that you want to install by accessing the following URL on CCO:
http://www.cisco.com/cgi-bin/tablebuild.pl/IDP
Step 2 If you want to install the dial plan on a publisher server, launch the dial plan installable file on the Publisher Cisco CallManager system.
If you want to install the dial plan on a Cisco CallManager cluster, launch the dial plan installable on a subscriber server system.
Step 3 The installable integrates the dial plan with Cisco CallManager. The installable copies an uninstall package and a ReadMe file for the dial plan in the following path on the Cisco CallManager system:
C:\Program Files\Cisco\Call Manager\IDP
The uninstall package provides a method to uninstall the dial plan. The ReadMe file contains details on the route filter tags and discard digit instructions that are configured in the dial plan.
Step 4 Choose Start > Settings > Control Panel > Administrative Tools > Services. Choose the ccm service and run this service to load the dial plan on to the Cisco CallManager system.
Upgrading a Dial Plan
If you have installed a non-NANP dial plan, you can upgrade the dial plan that is installed on your Cisco CallManager system with an upgraded version of the dial plan.
Caution Upgrading a dial plan will fail if you have configured one or more tags as a clause for a route filter in the existing version of the dial plan and the upgrade version does not contain these tags. After you upgrade to the new dial plan, the upgrade will list all such tags. You will need to disassociate these tags from the route filter and run the dial plan upgrade again on the Cisco CallManager system.
Caution Upgrading a dial plan will fail if you have associated one or more DDIs with Route Patterns/Translation Patterns/Route Lists in the existing version of the dial plan and the upgrade version does not contain these DDIs. The dial plan upgrade will list all such DDIs. You will need to disassociate these DDIs from Route Patterns/Translation Patterns/Route Lists and run the dial plan upgrade again on the Cisco CallManager system.
Use the following procedure to upgrade an existing dial plan.
Procedure
Step 1 Locate the dial plan upgrade version to which you want to upgrade by accessing the following URL on CCO:
http://www.cisco.com/cgi-bin/tablebuild.pl/IDP
Step 2 If you want to install the upgrade on a publisher server, launch the dial plan version's installable file on the publisher Cisco CallManager system.
If you want to install the upgrade on a Cisco CallManager cluster, launch the dial plan version's installable on a subscriber server system.
Step 3 The installable integrates the upgrade with Cisco CallManager. The installable copies an uninstall package and a ReadMe file for the upgraded version in the following path on the CallManager system:
C:\Program Files\Cisco\Call Manager\IDP
Step 4 Choose Start > Settings > Control Panel > Administrative Tools > Services. Choose the ccm service and run this service to load the upgraded dial plan on the Cisco CallManager system.
Uninstalling a Dial Plan
Caution Before you uninstall a dial plan, ensure that you remove the route patterns, translation patterns, route lists, and route filters that are configured in the dial plan on the Cisco CallManager system.
Use the following procedure to uninstall a dial plan.
Procedure
Step 1 Run the dial plan uninstall package by using one of the following methods:
•Run the uninstall package from the following path:
C:\Program Files\Cisco\Call Manager\IDP\ on a publisher system or a subscriber server.
•Choose Start > Programs > <Dial Plan> > Uninstall
where <Dial Plan> represents the name of the dial plan that is installed.
The uninstall package runs and uninstalls the dial plan from the Cisco CallManager system.
Step 2 Choose Start > Settings > Control Panel > Administrative Tools > Services. Choose the ccm service and run this service to load the dial plan on to the Cisco CallManager system.
Related Documentation
Refer to the following document for further information about using an international dial plan:
•Cisco CallManager Administration Guide
Special Characters and Settings
Cisco CallManager Administration allows you to use special characters and settings to perform the following tasks:
•Allowing a single route pattern to match a range of numbers
•Removing a portion of the dialed digit string
•Manipulating the appearance of the calling party number for outgoing calls
•Manipulating the dialed digits, or called party number, for outgoing calls
For more information on how to use special characters and settings, see the following topic:
• Route Pattern Wildcards and Special Characters
Route Pattern Wildcards and Special Characters
Route pattern wildcards and special characters allow a single route pattern to match a range of numbers (addresses). Use these wildcards and special characters also to build instructions that enable the Cisco CallManager to manipulate a number before sending it to an adjacent system.
Table 1 describes the wildcards and special characters that Cisco CallManager supports.
Table 1 Wildcards and Special Characters
Character
|
Description
|
Examples
|
X
|
The X wildcard matches with any single digit in the range 0 through 9.
|
The route pattern 9XXX routes or blocks all numbers in the range 9000 through 9999.
|
!
|
The Exclamation point(!) wildcard matches one or more digits in the range 0 through 9.
|
The route pattern 91! routes or blocks all numbers in the range 910 through 91999999999999999999999.
|
[]
|
The square bracket ([]) characters enclose a range of values.
|
The route pattern 813510[012345] routes or blocks all numbers in the range 8135100 through 8135105.
|
^
|
The circumflex (^) character, used with the square brackets, negates a range of values.
|
The route pattern 813510[^0-5] routes or blocks all numbers in the range 8135106 through 8135109.
|
-
|
The hyphen (-) character, used with the square brackets, denotes a range of values.
|
The route pattern 813510[0-5] routes or blocks all numbers in the range 8135100 through 8135105.
|
#
|
The octothorpe (#) character generally identifies the end of the dialing sequence. The # character must be the last character in the pattern.
|
The route pattern 901181910555# routes or blocks an international number that is dialed from within the JANP. The # character after the last 5 identifies this digit as the last digit in the sequence.
|
Discard Digits Instructions
A discard digits instruction (DDI) removes a portion of the dialed digit string before passing the number on to the adjacent system. A DDI must remove portions of the digit string, for example, when an external access code is needed to route the call to the PSTN, but the PSTN switch does not expect that access code.
See the following topics for information on DDIs that are used in the numbering plans for specific countries:
• Discard Digits Instructions for JPNP
• Discard Digits Instructions for NLNP
• Discard Digits Instructions for PTNP
Tag Descriptions
The tag represents the core component of a route filter. A tag applies a name to a subset of the dialed-digit string. For example, the NANP number 972-555-1234 comprises LOCAL-AREA-CODE (972), OFFICE-CODE (555), and SUBSCRIBER (1234) route filter tags.
Route filter tags require operators and can require additional values to decide which calls are filtered.
The values for route filter tag fields can contain the wildcard characters X, *, #, [, ], -, ^, and the numbers 0 through 9. The descriptions in Table 3, Table 5 and Table 7 use the notations [2-9] and XXXX to represent actual digits. In this notation, [2-9] represents any single digit in the range 2 through 9, and X represents any single digit in the range 0 through 9. Therefore, the description "The three-digit area code in the form [2-9]XX" means you can enter the actual digits 200 through 999, or all wildcards, or any mixture of actual digits and wildcards that results in a pattern with that range.
See the following topics for information on tags that are used in the numbering plans for specific countries:
• Tag Descriptions for JPNP
• Tag Descriptions for NLNP
• Tag Descriptions for PTNP
Japanese Numbering Plan
This section describes the DDIs and tags that are used in the JPNP.
Discard Digits Instructions for JPNP
Table 2 lists DDIs and describes the effects of applying each DDI to a dialed number.
Table 2 DDIs for JPNP
DDI
|
Effect
|
Example
|
NoDigits
|
This DDI removes no digits.
|
Route pattern: 0.@
Dialed digit string: 019728135000
After applying DDI: 019728135000
|
PreDot
|
This DDI removes
•Cisco CallManager external access code
|
Route pattern: 8.0@
Dialed digit string: 809728135000
After applying DDI: 09728135000
|
PreAt
|
This DDI removes all digits prior to the JANP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
|
Route pattern: 8.0@
Dialed digit string: 809728135000
After applying DDI: 9728135000
|
Trailing-#
|
This DDI removes
•End-of-dialing character for international calls
|
Route pattern: 0.@
Dialed digit string: 001181910555#
After applying DDI: 001181910555
|
PreDot Trailing-#
|
This DDI removes
•Cisco CallManager external access code
•End-of-dialing character for international calls
|
Route pattern: 8.0@
Dialed digit string: 8001181910555#
After applying DDI: 001181910555
|
PreAt Trailing-#
|
This DDI removes all digits prior to the JANP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
•End-of-dialing character for international calls
|
Route pattern: 8.0@
Dialed digit string: 8001181910555#
After applying DDI: 01181910555
|
Tag Descriptions for JPNP
Table 3 lists and describes tags that are used in the Japanese Numbering Plan (JPNP).
Table 3 Tag Descriptions for JPNP
Tags
|
Description
|
AREA-CODE
|
These one-, two-, three-, four-, or five-digit codes identify the area code for long-distance calls.
|
COUNTRY-CODE
|
These one-, two-, or three-digit codes specify the destination country for international calls.
|
END-OF-DIALING
|
This single character identifies the end of the dialed-digit string. The # character serves as the end-of-dialing signal for international and long-distance-service numbers that are dialed within the JPNP.
|
INTERNATIONAL-ACCESS
|
This three-digit access code specifies international dialing. Calls that originate in Japan use 010 for this code.
|
iyayo
|
This three-digit code in the form 184/186 identifies Caller-ID display/Non-display followed by called party number.
|
LONG-DISTANCE-ACCESS
|
This one-digit code identifies a direct-dialed, long-distance call. JANP calls use 0 for this code.
|
MOBILE-ACCESS
|
This three-digit area code in the form 0[27-9]0 identifies the Mobile Access code.
|
MOBILE-SUBSCRIBER
|
This tag specifies the last eight digits of mobile directory number in the form XXXXXXXX.
|
NATIONAL-NUMBER
|
This single character identifies the end of the dialed-digit string. The # character serves as the end-of-dialing signal for international numbers that are dialed within the JPNP.
|
PayService-ACCESS
|
This four-digit code in the form 0990 identifies pay service.
|
PayService-SUBSCRIBER
|
This tag specifies the last eight digits of pay services' directory number in the form XXXXXXXX.
|
SERVICE
|
This three-digit code in the form 1XX designates services such as 110/119 for emergency and 177 for weather information.
|
SUBSCRIBER
|
This tag specifies the last 7 or 8 digits of a 10-digit directory number in the form XXXXXXX or XXXXXXXX.
|
Netherlands Numbering Plan
This section describes DDIs and tags that are used in the Netherlands Numbering Plan (NLNP).
Discard Digits Instructions for NLNP
Table 4 lists DDIs and describes the effects of applying each DDI to a dialed number.
Table 4 DDIs for NLNP
DDI
|
Effect
|
Example
|
NoDigits
|
This DDI removes no digits.
|
Route pattern: 0.@
Dialed digit string: 00203571000
After applying DDI: 00203571000
|
PreDot
|
This DDI removes
•Cisco CallManager external access code
|
Route pattern: 0.1611@
Dialed digit string: 016110203571000
After applying DDI: 16110203571000
|
PreAt
|
This DDI removes all digits prior to the NLNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
|
Route pattern: 0.1611@
Dialed digit string: 016110203571000
After applying DDI: 0203571000
|
Trailing-#
|
This DDI removes
•End-of-dialing character for international calls
|
Route pattern: 0.1611@
Dialed digit string: 016110081910555#
After applying DDI: 016110081910555
|
PreDot Trailing-#
|
This DDI removes
•Cisco CallManager external access code
•End-of-dialing character for international calls
|
Route pattern: 0.1611@
Dialed digit string: 016110081910555#
After applying DDI: 16110081910555
|
PreAt Trailing-#
|
This DDI removes all digits prior to the NLNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
•End-of-dialing character for international calls
|
Route pattern: 0.1611@
Dialed digit string: 016110081910555#
After applying DDI: 0081910555
|
Tag Descriptions for NLNP
Table 5 lists and describes tags that are used in the Netherlands Numbering Plan (NLNP).
Table 5 Tag Descriptions for NLNP
Tags
|
Description
|
END-OF-DIALING
|
This tag designates the "#" digit that is used to indicate end-of-dialing for international calls.
|
NATIONAL-NUMBER
|
This tag designates the national-number part of international calls, which is basically everything dialed after the country-code.
|
AREA-CODE
|
This tag designates the area code ("netnummer") as dialed for national calls. The area code includes the leading 0. Example: 020 for Amsterdam, 070 for The Hague.
|
COUNTRY-CODE
|
This tag designates the country code ("landnummer") of international calls. Example: 1 for US, 32 for Belgium, 44 for England.
|
DIALUP-SUBSCRIBER
|
This tag designates the subscriber number that is dialed after the dialup access code.
|
DIALUP-ACCESS
|
This tag designates the dialup access code ("internet providers"), which is 067 in the Netherlands.
|
INTERNATIONAL-ACCESS
|
This tag designates the international access code, which is 00 in the Netherlands.
|
SUBSCRIBER
|
This tag designates the subscriber number that is dialed after the area code (can be 6 or 7 digits).
|
SUBSCRIBER6
|
This tag designates the 4-digit area codes in the Netherlands that use a 6-digit local subscriber number and is used for calls that are dialed locally (so without an area code). Cisco CallManager must recognize whether the route pattern is sent to a 6- or 7-digit subscriber area. For a 6-digit area, add a filter "SUBSCRIBER7 DOES-NOT-EXIST" to remove the 7-digit subscriber number definition. If you do not add this filter, local calls will only extend after T302 timer expires because both 6- and 7-digit subscriber numbers are assumed to be valid.
|
SUBSCRIBER7
|
This tag designates the 3-digit area codes in the Netherlands that use a 7-digit local subscriber number and is used for calls that are dialed locally (so without an area code). Cisco CallManager must recognize whether the route pattern is sent to a 6- or 7-digit subscriber area.
For a 7-digit area, add a filter "SUBSCRIBER6 DOES-NOT-EXIST" to remove the 6-digit subscriber number definition.
If you do not add this filter, local calls may extend with 6 digits if the user dials slowly and the T302 timer expires because both 6- and 7-digit subscriber numbers are assumed to be valid.
|
PERSONAL-SUBSCRIBER
|
This tag designates the subscriber number that is dialed after the personal access code.
|
PERSONAL-ACCESS
|
This tag designates the personal numbers ("persoonlijke nummers") access code, which is 087 in the Netherlands.
|
PAGING-SUBSCRIBER
|
This tag designates the subscriber number that is dialed after the paging access code.
|
PAGING-ACCESS
|
This tag designates the paging numbers ("piepers" and "buzzers") access code, which is 066 in the Netherlands.
|
FREEPHONE-SUBSCRIBER
|
This tag designates the subscriber number that is dialed after the freephone access code (can be 4 or 7 digits).
|
FREEPHONE-ACCESS
|
This tag designates the freephone access ("gratis nummers") access code, which is 0800 in the Netherlands.
|
PREMIUM-SUBSCRIBER
|
This tag designates the subscriber number that is dialed after the premium access code (can be 4 or 7 digits).
|
PREMIUM-ACCESS
|
This tag designates the premium access ("betaalde nummers") access code, which is 0900, 0906, or 090 in the Netherlands.
Example: To disallow 0906 and/or 0909 premium entertainment numbers, create a route pattern blocking patterns that matches the filter "PREMIUM ACCESS == 090[69]".
|
MOBILE-SUBSCRIBER
|
This tag designates the 7-digit subscriber number that is dialed after the mobile access code.
|
MOBILE-ACCESS
|
This tag designates the mobile access ("mobiele nummers") access code, which is 061, 062, 063, 064, or 065 in the Netherlands.
|
SERVICE
|
This tag designates 11x and 12xx service numbers (like 118 directory inquiries), excluding the 112 emergency number.
|
VOICEMAIL-ACCESS
|
This tag designates the voicemail access ("voicemail diensten") access code, which is 084 in the Netherlands.
|
VOICEMAIL-SUBSCRIBER
|
This tag designates the subscriber number that is dialed after the voicemail access code (can be 4 or 7 digits).
|
EMERGENCY
|
This tag designates the 112 emergency number, which will route as an urgent pattern (extend call as soon as these digits match).
|
Portuguese Numbering Plan
This section describes DDIs and tags that are used in the Portuguese Numbering Plan (PTNP).
Discard Digits Instructions for PTNP
Table 6 lists DDIs and describes the effects of applying each DDI to a dialed number.
Table 6 DDIs for PTNP
DDI
|
Effect
|
Example
|
NoDigits
|
This DDI removes no digits.
|
Route pattern: 0.@
Dialed digit string: 0214468700
After applying DDI: 0214468700
|
PreDot
|
This DDI removes
•Cisco CallManager external access code
|
Route pattern: 0.0@
Dialed digit string: 00214468700
After applying DDI: 0214468700
|
PreAt
|
This DDI removes all digits prior to the PTNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
|
Route pattern: 0.0@
Dialed digit string: 00214468700
After applying DDI: 214468700
|
Trailing-#
|
This DDI removes
•End-of-dialing character for international calls
|
Route pattern: 0.@
Dialed digit string: 0214468700#
After applying DDI: 0214468700
|
PreDot Trailing-#
|
This DDI removes
•Cisco CallManager external access code
•End-of-dialing character for international calls
|
Route pattern: 0.0@
Dialed digit string: 00214468700#
After applying DDI: 0214468700
|
PreAt Trailing #
|
This DDI removes all digits prior to the PTNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
•End-of-dialing character for international call
|
Route pattern: 0.0@
Dialed digit string: 00214468700#
After applying DDI: 214468700
|
Tag Descriptions for PTNP
Table 7 lists and describes tags that are used in the PTNP.
Table 7 Tag Descriptions for PTNP
Tag
|
Description
|
SUBSCRIBER
|
This tag specifies the 9-digit directory number in the form 2XXXXXXXX.
|
END-OF-DIALING
|
This single character identifies the end of the dialed-digit string. The # character serves as the end-of-dialing signal for international numbers that, however, are dialed within the PTNP.
|
NATIONAL-NUMBER
|
This tag specifies the nation-specific part of the digit string for an international call.
|
COUNTRY-CODE
|
These 1-, 2-, or 3-digit codes specify the destination country for international calls.
|
DIALUP-SUBSCRIBER
|
This tag designates the 2-digits that are added to the dialup access number.
|
DIALUP-ACCESS
|
This tag designates the 2 digits that specify the dialup call.
|
INTERNATIONAL-ACCESS
|
This 2-digit access code specifies international dialing. Calls that originate in Portugal use 00 for this code.
|
VIRTUALCALLINGCARDS-SUBSCRIBER
|
This tag designates the 6 digits that are added to the virtual calling card access number.
|
VIRTUALCALLINGCARDS-ACCESS
|
This tag designates 3 digits that specify a virtual calling card call.
|
VPN-SUBSCRIBER
|
This tag designates 2 digits that are added to the VPN access number.
|
VPN-ACCESS
|
This tag designates 3 digits that specify a VPN access call.
|
PERSONAL-SUBSCRIBER
|
This tag designates 6 digits that are added to the personal access number.
|
PERSONAL-ACCESS
|
This tag designates 3 digits that specify a personal access call.
|
SPECIALRATE-SUBSCRIBER
|
This tag designates 6 digits that are added to the special rate access number.
|
SPECIALRATE-ACCESS
|
This tag designates 3 digits that specify a special rate charge call.
|
LOCALRATE-SUBSCRIBER
|
This tag designates 6 digits that are added to the local rate access number.
|
LOCALRATE-ACCESS
|
This tag designates 3 digits that specify a local rate charge call.
|
NATIONALRATE-SUBSCRIBER
|
This tag designates 6 digits that are added to the national rate access number.
|
NATIONALRATE-ACCESS
|
This tag designates 3 digits that specify a national rate charge call.
|
FREEPHONE-SUBSCRIBER
|
This tag designates 6 digits that are added to the free phone access number.
|
FREEPHONE-ACCESS
|
This tag designates 3 digits that specify a free charge call.
|
MOBILE-SUBSCRIBER
|
This tag designates 7 digits that are added to the mobile access number.
|
MOBILE-ACCESS
|
This tag designates 2 digits that specify the mobile operator.
|
SERVICE
|
This 3 or 4-digit code, starting with 1, designates services such as 112 for emergency.
|
Singapore Numbering Plan
This section describes DDIs and tags that are used in the Singapore Numbering Plan (SGNP).
Discard Digits Instructions for SGNP
Table 8 lists DDIs and describes the effects of applying each DDI to a dialed number.
Table 8 DDIs for SGNP
DDI
|
Effect
|
Example
|
NoDigits
|
This DDI removes no digits.
|
Route pattern: 9.@
Dialed digit string: 990115711
After applying DDI: 990115711
|
PreDot
|
This DDI removes
•Cisco CallManager external access code
|
Route pattern: 9.@
Dialed digit string: 990115711
After applying DDI: 990115711
|
PreAt
|
This DDI removes all digits prior to the SGNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
|
Route pattern: 8.9@
Dialed digit string: 8990115711
After applying DDI: 90115711
|
Trailing-#
|
This DDI removes
•End-of-dialing character for international calls
|
Route pattern: 9.@
Dialed digit string: 900161883795211#
After applying DDI: 900161883795211
|
PreDot Trailing-#
|
This DDI removes
•Cisco CallManager external access code
•End-of-dialing character for international calls
|
Route pattern: 9.@
Dialed digit string: 900861883795211#
After applying DDI: 00861883795211
|
PreAt Trailing #
|
This DDI removes all digits prior to the SGNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
•End-of-dialing character for international call
|
Route pattern: 8.9@
Dialed digit string: 8900261883795211#
After applying DDI: 00261883795211
|
Tag Descriptions for SGNP
Table 9 lists and describes tags that are used in the SGNP.
Table 9 Tag Descriptions for SGNP
Tag
|
Description
|
SUBSCRIBER
|
This tag specifies the eight-digit directory number for geographic numbers of the form 6XXXXXXX.
|
END-OF-DIALING
|
This single character identifies the end of the dialed-digit string. The # character serves as the end-of-dialing signal for international numbers that are dialed within the SGNP.
|
NATIONAL-NUMBER
|
This tag specifies the nation-specific part of the digit string for an international call.
|
COUNTRY-CODE
|
These one-, two-, or three-digit codes specify the destination country for international calls.
|
INTERNATIONAL-ACCESS
|
This three-digit access code specifies international dialing. The first digit for international calls is always 0, and the following digits depend on the carrier. Examples of carriers include SingTel, Starhub, M1, and so on.
|
CARRIER-SELECT
|
This tag specifies the access code to select the alternative IDD carriers in Singapore and is of the form 15XX or 15XXX.
|
FREEPHONE-SUBSCRIBER
|
This tag specifies the last seven digits of the freephone number.
|
FREEPHONE-ACCESS
|
This tag specifies the four-digit access number for freephone calls. For Singapore this number is 1800.
|
PREMIUM-SUBSCRIBER
|
This tag specifies the last seven digits of the premium rate number.
|
PREMIUM-ACCESS
|
This tag specifies the four-digit access number for premium rate calls. For Singapore this number is 1900.
|
MOBILE-SUBSCRIBER
|
This tag represents the seven digits of the handphone number that follows the mobile access code.
|
MOBILE-ACCESS
|
This tag specifies the first digit of the handphone number. In Singapore this number is 9.
|
SERVICE
|
This tag specifies the service numbers. The following forms apply for service numbers: 1[136-9]XX, 100 for directory enquires, and 99X or 112 for emergency services.
|
OPERATOR
|
This tag specifies the operator service numbers. Operator services use the form 10XX.
|
Australian Numbering Plan
This section describes DDIs and tags that are used in the Australian Numbering Plan (AUNP).
Discard Digits Instructions for AUNP
Table 8 lists DDIs and describes the effects of applying each DDI to a dialed number.
Table 10 DDIs for AUNP
DDI
|
Effect
|
Example
|
NoDigits
|
This DDI removes no digits.
|
Route pattern: 0.@
Dialed digit string: 00883795211
After applying DDI: 00883795211
|
PreDot
|
This DDI removes
•Cisco CallManager external access code
|
Route pattern: 0.@
Dialed digit string: 00883795211
After applying DDI: 0883795211
|
PreAt
|
This DDI removes all digits prior to the AUNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
|
Route pattern: 8.0@
Dialed digit string: 800883795211
After applying DDI: 0883795211
|
Trailing-#
|
This DDI removes
•End-of-dialing character for international calls
|
Route pattern: 0.@
Dialed digit string: 000116563175666#
After applying DDI: 000116563175666
|
PreDot Trailing-#
|
This DDI removes
•Cisco CallManager external access code
•End-of-dialing character for international calls
|
Route pattern: 0.@
Dialed digit string: 000116563175306#
After applying DDI: 00116563175306
|
PreAt Trailing #
|
This DDI removes all digits prior to the AUNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
•End-of-dialing character for international call
|
Route pattern: 8.0@
Dialed digit string: 8000116563175306#
After applying DDI: 00116563175306
|
Tag Descriptions for AUNP
Table 11 lists and describes tags that are used in the AUNP.
Table 11 Tag Descriptions for AUNP
Tag
|
Description
|
AREA-CODE
|
This two-digit area code identifies the area code for long-distance calls. This code takes the form 0[2378].
|
CARRIER-SELECT
|
This tag specifies the access code used to select an alternative carrier for this call. This code takes the form 14[1-9]X.
|
COUNTRY-CODE
|
These one-, two-, or three-digit codes specify the destination country for international calls.
|
DIALUP-ACCESS
|
This tag represents the dialup access code for data services. This code takes the form 019.
|
DIALUP-SUBSCRIBER
|
This tag represents the remaining digits of a data service.
|
END-OF-DIALING
|
This single character identifies the end of the dialed-digit string. The # character serves as the end-of-dialing signal for international numbers that are dialed within the AUNP.
|
FREEPHONE-ACCESS
|
This tag specifies the four-digit access number for freephone calls. For Australia, this number is either 180[01] or 180[2-9].
|
FREEPHONE-SUBSCRIBER
|
This tag represents the digits that follow the freephone access code for freephone calls.
|
INTERNATIONAL-ACCESS
|
This four-digit access code specifies international dialing. The first two digits for international calls always specify 00, with the following digits dependent on the service. This code takes the form 001X or 009.
|
LOCALRATE-ACCESS
|
This tag specifies the access code that is used to determine nongeographic local rate calls. This code is 13 for Australia.
|
LOCALRATE-SUBSCRIBER
|
This tag represents the remaining digits of the local rate number.
|
MOBILE-ACCESS
|
This tag specifies the access code that is used to identify calls to mobile phones. In Australia this code takes the form 04, 014, 015, 017, 018, or 019.
|
MOBILE-SUBSCRIBER
|
This tag represents the remaining digits of the mobile number.
|
NATIONAL-NUMBER
|
This tag specifies the nation-specific part of the digit string for an international call.
|
NATIONALRATE-ACCESS
|
This tag specifies the access code that is used to determine nongeographic national rate calls. This code is 1700 for Australia.
|
NATIONALRATE-SUBSCRIBER
|
This tag represents the remaining digits of the national rate number.
|
OPERATOR
|
This tag specifies the operator service number. This number is 1100 in Australia.
|
PAGING-ACCESS
|
This tag specifies the access code that is used to recognize calls to radio paging devices. This number is 016 for Australia.
|
PAGING-SUBSCRIBER
|
This tag represents the remaining digits of the radio paging number.
|
PERSONAL-ACCESS
|
This tag specifies the access code that is used to recognize calls to the personal number service. This number is 05 for Australia.
|
PERSONAL-SUBSCRIBER
|
This tag represents the remaining digits of the personal number service.
|
PREMIUM-ACCESS
|
This tag specifies the access code that is used to recognize calls to a premium rate service. This number is 190[12679] for Australia.
|
PREMIUM-SUBSCRIBER
|
This tag represents the remaining digits of a premium rate service.
|
SERVICE
|
This tag specifies the general services number. General service numbers and emergency numbers take the following form 110[1-9]XX, 122[1235], 123[46], 12[45]!, 12711, 127[2-9]!, 199, 113XXX, 114XXXXX, 119X, 1830, 183[3-9], 18[59]XX, 188XX!, 197X!, 128XX!, and 000.
|
SPECIALRATE-ACCESS
|
This tag specifies the access code that is used to recognize calls to a special rate service. This number is 197 for Australia.
|
SPECIALRATE-SUBSCRIBER
|
This tag represents the remaining digits of a special rate service.
|
SUBSCRIBER
|
This tag specifies the eight-digit "local" number for geographic numbers. This number takes the form [3-9]XXXXXXX.
|
Russian Numbering Plan
This section describes DDIs and tags that are used in the Russian Numbering Plan (RUNP).
Discard Digits Instructions for RUNP
Table 12 lists DDIs and describes the effects of applying each DDI to a dialed number.
Table 12 DDIs for RUNP
DDI
|
Effect
|
Example
|
NoDigits
|
This DDI removes no digits.
|
Route pattern: 9.0@
Dialed digit string: 9080959611410
After applying DDI: 9080959611410
|
PreDot
|
This DDI removes all digits prior to the dot in the route pattern, including
•Cisco CallManager external access code
|
Route pattern: 9.0@
Dialed digit string: 9080959611410
After applying DDI: 080959611410
|
PreAt
|
This DDI removes all digits prior to the RUNP portion of the route pattern (prior to @ sign in the pattern), including
•Cisco CallManager external access code
•PBX external access code
|
Route pattern: 9.0@
Dialed digit string: 9.080959611410
After applying DDI: 80959611410
|
Trailing-#
|
This DDI removes
•End-of-dialing character
|
Route pattern: 9.0@
Dialed digit string: 9081031203573500#
After applying DDI: 9081031203573500
|
PreDot Trailing-#
|
This DDI removes
•Cisco CallManager external access code
•End-of-dialing character
|
Route pattern: 9.0@
Dialed digit string: 9081031203573500#
After applying DDI: 081031203573500
|
PreAt Trailing #
|
This DDI removes all digits prior to the RUNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
•End-of-dialing character
|
Route pattern: 9.0@
Dialed digit string: 9081031203573500#
After applying DDI: 81031203573500
|
Intl Access 8-10
|
This DDI extracts a national number along with the country code. This DDI removes
•International access code (8-10)
|
Route pattern: 9.0@
Dialed digit string: 9081031203573500
After applying DDI: 9031203573500
|
PreDot Intl Access 8-10
|
This DDI extracts a national number along with the country code. This DDI removes
•Cisco CallManager external access code
•International access code
|
Route pattern: 9.0@
Dialed digit string: 9081031203573500
After applying DDI: 031203573500
|
PreAt Intl Access 8-10
|
This DDI removes all digits prior to the RUNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
•International access code
|
Route pattern: 9.0@
Dialed digit string: 9081031203573500
After applying DDI: 31203573500
|
Intl Access 8-10 Trailing-#
|
This DDI removes
•International access code (8-10)
•End-of-dialing character
|
Route pattern: 9.0@
Dialed digit string: 9081031203573500#
After applying DDI: 9031203573500
|
PreDot Intl Access 8-10 Trailing-#
|
This DDI extracts a national number along with the country code. This DDI removes
•Cisco CallManager external access code
•International access code
•End-of-dialing character
|
Route pattern: 9.0@
Dialed digit string: 9081031203573500#
After applying DDI: 031203573500#
|
PreAt Intl Access 8-10 Trailing-#
|
This DDI removes all digits prior to the RUNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
•International access code
•End-of-dialing character
|
Route pattern: 9.0@
Dialed digit string: 9081031203573500#
After applying DDI: 31203573500
|
Long Dist -> 7D
|
This DDI extracts a seven-digit local number from the long-distance number along with the Cisco CallManager external access code and PBX access code. This DDI removes
•Long-distance direct-dialing access code (8)
•Area code
|
Route pattern: 9.0@
Dialed digit string: 9080959611410
After applying DDI: 909611410
|
PreDot Long Dist -> 7D
|
This DDI extracts a seven-digit local number from the long-distance number along with the PBX access code. This DDI removes
•Cisco CallManager external access code
•Long-distance direct-dialing access code (8)
•Area code
|
Route pattern: 9.0@
Dialed digit string: 9080959611410
After applying DDI: 09611410
|
PreAt Long Dist -> 7D
|
This DDI removes all digits prior to the RUNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
•Long-distance direct-dialing access code (8)
•Area code
|
Route pattern: 9.0@
Dialed digit string: 9080959611410
After applying DDI: 9611410
|
Long Dist -> 7D Trailing-#
|
This DDI extracts a seven-digit local number from the long-distance number, along with the Cisco CallManager external access code and PBX access code. This DDI removes
•Long-distance direct-dialing access code (8)
•Area code
•End-of-dialing character
|
Route pattern: 9.0@
Dialed digit string: 9080959611410#
After applying DDI: 909611410
|
PreDot Long Dist -> 7D Trailing-#
|
This DDI removes
•Cisco CallManager external access code
•Long-distance direct-dialing access code (8)
•Area code
•End-of-dialing character
|
Route pattern: 9.0@
Dialed digit string: 9080959611410#
After applying DDI: 09611410
|
PreAt Long Dist -> 7D Trailing-#
|
This DDI removes all digits prior to the RUNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
•Long-distance direct-dialing access code (8)
•Area code
•End-of-dialing character
|
Route pattern: 9.0@
Dialed digit string: 9080959611410#
After applying DDI: 9611410
|
Long Dist -> 6D
|
This DDI extracts a six-digit local number from the long-distance number along with Cisco CallManager external access code and PBX access code. This DDI removes
•Long-distance direct-dialing access code (8)
•Area code
•`A' zone digit
|
Route pattern: 9.0@
Dialed digit string: 9080962123456
After applying DDI: 90123456
|
PreDot Long Dist -> 6D
|
This DDI extracts a six-digit local number from the long-distance number along with PBX access code. This DDI removes
•Cisco CallManager external access code
•Long-distance direct-dialing access code (8)
•Area code
•`A' zone digit
|
Route pattern: 9.0@
Dialed digit string: 9080962123456
After applying DDI: 0123456
|
PreAt Long Dist -> 6D
|
This DDI removes all digits prior to the RUNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
•Long-distance direct-dialing access code (8)
•Area code
•`A' zone digit
|
Route pattern: 9.0@
Dialed digit string: 9080962123456
After applying DDI: 123456
|
Long Dist -> 6D Trailing-#
|
This DDI extracts a six-digit local number from the long-distance number along with Cisco CallManager external access code and PBX access code. This DDI removes
•Long-distance direct-dialing access code (8)
•Area code
•`A' zone digit
•End-of-dialing character
|
Route pattern: 9.0@
Dialed digit string: 9080962123456#
After applying DDI: 90123456
|
PreDot Long Dist -> 6D Trailing-#
|
This DDI removes
•Cisco CallManager external access code
•Long-distance direct-dialing access code (8)
•Area code
•`A' zone digit
•End-of-dialing character
|
Route pattern: 9.0@
Dialed digit string: 9080962123456#
After applying DDI: 0123456
|
PreAt Long Dist -> 6D Trailing-#
|
This DDI removes all digits prior to the RUNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
•Long-distance direct-dialing access code (8)
•`A' zone digit
•Area code
•End-of-dialing character
|
Route pattern: 9.0@
Dialed digit string: 9080962123456#
After applying DDI: 123456
|
Long Dist -> 5D
|
This DDI extracts a five-digit local number from a long-distance number. This DDI creates a five-digit local number from an 11-digit dialed number (that is counted, including the access code). This DDI removes
•Long-distance direct-dialing access code (8)
•Area code
•`A' and `B' zone digits
|
Route pattern: 9.@
Dialed digit string: 988472255640
After applying DDI: 955640
|
PreDot Long Dist -> 5D
|
This DDI extracts a five-digit local number from a long-distance number. It also removes the digits that precede the dot in the routing pattern. This DDI creates a five-digit local number from a 11-digit dialed number (that is counted, including with access code). This DDI removes
•Cisco CallManager external access code
•Long-distance direct-dialing access code (8)
•Area code
•`A' and `B' zone digits
|
Route pattern: 9.0@
Dialed digit string: 9088472255640
After applying DDI: 055640
|
PreAt Long Dist -> 5D
|
This DDI extracts a five-digit local number from a long-distance number. It also removes the digits that precede the @ sign in the routing pattern. This DDI creates a five-digit local number from a 11-digit dialed number (that is counted, with the access code). This DDI removes
•Cisco CallManager external access code
•PBX external access code
•Long-distance direct-dialing access code (8)
•Area code
•`A' and `B' zone digits
|
Route pattern: 9.0@
Dialed digit string: 9088472255640
After applying DDI: 55640
|
Long Dist -> 5D Trailing-#
|
This DDI extracts a five-digit local number from long-distance number. This DDI creates a five-digit local number from a 11-digit dialed number (that is counted with the access code). This DDI removes
•Long-distance direct-dialing access code (8)
•Area code
•`A' and `B' zone digits
•End-of-dialing character for international calls
|
Route pattern: 9.0@
Dialed digit string: 9088472255640#
After applying DDI: 9055640
|
PreDot Long Dist -> 5D Trailing-#
|
This DDI extracts a five-digit local number from long-distance number. It also removes the digits that precede the dot in the routing pattern. This DDI creates a five-digit local number from a 11-digit (that is counted, including the access code) dialed number. This DDI removes
•Cisco CallManager external access code
•Long-distance direct-dialing access code (8)
•Area code
•`A' and `B' zone digits
•End-of-dialing character for international calls
|
Route pattern: 9.0@
Dialed digit string: 9088472255640#
After applying DDI: 055640
|
PreAt Long Dist -> 5D Trailing-#
|
This DDI extracts a five -digit local number from long-distance number. It also removes the digits that precede the at sign in the routing pattern and the trailing # sign. This DDI creates a five-digit local number from a 11-digit dialed number (that is counted, with the access code). This DDI removes
•Cisco CallManager external access code
•PBX external access code
•Long-distance direct-dialing access code (8)
•Area code
•`A' and `B' zone digits
•End-of-dialing character for international calls
|
Route pattern: 9.0@
Dialed digit string: 9088472255640#
After applying DDI: 55640
|
Intl -> National number
|
This DDI extracts the national number portion of the dialed number. This DDI removes
•International access code (8-10)
•Country code
|
Route pattern: 9.0@
Dialed digit string: 9081031203573500
After applying DDI: 90203573500
|
PreDot Intl -> National number
|
This DDI extracts a national number of the dialed number and removes digits that precede the `.' sign. This DDI removes
•Cisco CallManager external access code
•International access code (8-10)
•Country code
|
Route pattern: 9.0@
Dialed digit string: 9081031203573500
After applying DDI: 0203573500
|
PreAt Intl -> National number
|
This DDI removes all digits prior to the RUNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
•International access code (8-10)
•Country code
|
Route pattern: 9.0@
Dialed digit string: 9081031203573500
After applying DDI: 203573500
|
Intl -> National number Trailing-#
|
This DDI extracts the National number portion of the dialed number. This DDI removes
•International access code (8-10)
•Country code
•End-of-dialing character for international calls
|
Route pattern: 9.0@
Dialed digit string: 9081031203573500#
After applying DDI: 90203573500
|
PreDot Intl -> National number Trailing-#
|
This DDI extracts a national number of the dialed number and removes the digits that precede the `.' sign. This DDI removes
•Cisco CallManager external access code
•International access code (8-10)
•Country code
•End-of-dialing character for international calls
|
Route pattern: 9.0@
Dialed digit string: 9081031203573500#
After applying DDI: 0203573500
|
PreAt Intl -> National number Trailing-#
|
This DDI removes all digits prior to the RUNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
•International access code (8-10)
•Country code
•End-of-dialing character for international calls
|
Route pattern: 9.0@
Dialed digit string: 9081031203573500#
After applying DDI: 203573500
|
Interzone->5D
|
This DDI extracts a five-digit local number from the dialed number for interzone calls. This DDI removes
•Long-distance direct-dialing access code (8)
•Interzone calls access code (2)
•`A' and `B' zone digits
|
Route pattern: 9.0@
Dialed digit string: 90827512345
After applying DDI: 9012345
|
PreDot Interzone->5D
|
This DDI extracts a five-digit local number from the dialed number for interzone calls and also removes digits that precede the `.' sign. This DDI removes
•Cisco CallManager external access code
•Long-distance direct-dialing access code (8)
•Interzone calls access code (2)
•`A' and `B' zone digits
|
Route pattern: 9.0@
Dialed digit string: 90827512345
After applying DDI: 012345
|
PreAt Interzone->5D
|
This DDI removes all digits prior to the RUNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
•Long-distance direct-dialing access code (8)
•Interzone calls access code (2)
•`A' and `B' zone digits
|
Route pattern: 9.0@
Dialed digit string: 90827512345
After applying DDI: 12345
|
Interzone->5D Trailing-#
|
This DDI extracts a five-digit local number from the dialed number for interzone calls. This DDI removes
•Long-distance direct-dialing access code (8)
•Interzone calls access code (2)
•`A' and `B' zone digits
•End-of-dialing character
|
Route pattern: 9.0@
Dialed digit string: 90827512345#
After applying DDI: 9012345
|
PreDot Interzone->5D Trailing-#
|
This DDI extracts a five-digit local number from the dialed number for interzone calls and also removes digits that precede the `.' sign. This DDI removes
•Cisco CallManager external access code
•Long-distance direct-dialing access code (8)
•Interzone calls access code (2)
•`A' and `B' zone digits
•End-of-dialing character
|
Route pattern: 9.0@
Dialed digit string: 90827512345#
After applying DDI: 012345
|
PreAt Interzone->5D Trailing-#
|
This DDI removes all digits prior to the RUNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
•Long-distance direct-dialing access code (8)
•Interzone calls access code (2)
•`A' and `B' zone digits
•End-of-dialing character
|
Route pattern: 9.0@
Dialed digit string: 90827512345#
After applying DDI: 12345
|
Interzone->6D
|
This DDI extracts a six-digit local number from the dialed number for interzone calls. This DDI removes
Long-distance direct-dialing access code (8)
Interzone calls access code (2)
`A' zone digit
|
Route pattern: 9.0@
Dialed digit string: 90827612345
After applying DDI: 90612345
|
PreDot Interzone->6D
|
This DDI extracts a six-digit local number from the dialed number for interzone calls and also removes digits that precede the `.' sign. This DDI removes
•Cisco CallManager external access code
•Long-distance direct-dialing access code (8)
•Interzone calls access code (2)
•`A' zone digit
|
Route pattern: 9.0@
Dialed digit string: 90827612345
After applying DDI: 0612345
|
PreAt Interzone->6D
|
This DDI removes all digits prior to the RUNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
•Long-distance direct-dialing access code (8)
•Interzone calls access code (2)
•`A' and `B' zone digits
|
Route pattern: 9.0@
Dialed digit string: 90827612345
After applying DDI: 612345
|
Interzone->6D Trailing-#
|
This DDI extracts a five-digit local number from the dialed number for interzone calls. This DDI removes
•Long-distance direct-dialing access code (8)
•Interzone calls access code (2)
•`A' zone digit
•End-of-dialing character
|
Route pattern: 9.0@
Dialed digit string: 90827612345#
After applying DDI: 90612345
|
PreDot Interzone->6D Trailing-#
|
This DDI extracts a five-digit local number from the dialed number for interzone calls and also removes digits that precede the `.' sign. This DDI removes
•Cisco CallManager external access code
•Long-distance direct-dialing access code (8)
•Interzone calls access code (2)
•`A' zone digit
•End-of-dialing character
|
Route pattern: 9.0@
Dialed digit string: 90827512345#
After applying DDI: 012345
|
PreAt Interzone->6D Trailing-#
|
This DDI removes all digits prior to the RUNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
•Long-distance direct-dialing access code (8)
•Interzone calls access code (2)
•`A' zone digit
•End-of-dialing character
|
Route pattern: 9.0@
Dialed digit string: 90827612345#
After applying DDI: 612345
|
Interzone->7D
|
This DDI extracts a seven-digit local number from the dialed number for interzone calls. This DDI removes
•Long-distance direct-dialing access code (8)
•Interzone calls access code (2)
|
Route pattern: 9.0@
Dialed digit string: 9081234567
After applying DDI: 901234567
|
PreDot Interzone->7D
|
This DDI extracts a six-digit local number from the dialed number for interzone calls and also removes digits that precede the `.' sign. This DDI removes
•Cisco CallManager external access code
•Long-distance direct-dialing access code (8)
•Interzone calls access code (2)
•`A' zone digit
|
Route pattern: 9.0@
Dialed digit string: 90821234567
After applying DDI: 01234567
|
PreAt Interzone->7D
|
This DDI removes all digits prior to the RUNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
•Long-distance direct-dialing access code (8)
•Interzone calls access code (2)
•`A' and `B' zone digits
|
Route pattern: 9.0@
Dialed digit string: 90821234567
After applying DDI: 1234567
|
Interzone->7D Trailing-#
|
This DDI extracts a five-digit local number from the dialed number for interzone calls. This DDI removes
•Long-distance direct-dialing access code (8)
•Interzone calls access code (2)
•`A' zone digit
•End-of-dialing character
|
Route pattern: 9.0@
Dialed digit string: 90821234567#
After applying DDI: 901234567
|
PreDot Interzone->7D Trailing-#
|
This DDI extracts a five-digit local number from the dialed number for interzone calls and also removes digits that precede the `.' sign. This DDI removes
•Cisco CallManager external access code
•Long-distance direct-dialing access code (8)
•Interzone calls access code (2)
•`A' zone digit
•End-of-dialing character
|
Route pattern: 9.0@
Dialed digit string: 90821234567#
After applying DDI: 01234567
|
PreAt Interzone->7D Trailing-#
|
This DDI removes all digits prior to the RUNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
•Long-distance direct-dialing access code (8)
•Interzone calls access code (2)
•`A' zone digit
•End-of-dialing character
|
Route pattern: 9.0@
Dialed digit string: 90821234567#
After applying DDI: 1234567
|
Tag Descriptions for RUNP
Table 13 lists and describes tags that are used in the RUNP.
Table 13 Tag Descriptions for RUNP
Tag
|
Description
|
AREA-CODE
|
This three-digit area code in the form [03-9]XX identifies the area code for long-distance calls.
|
COUNTRY-CODE
|
These one-, two-, or three-digit codes specify the destination country for international calls.
|
NATIONAL-NUMBER
|
This tag specifies the nation-specific part of the digit string for an international call.
|
SUBSCRIBER
|
This tag specifies the subscriber number in case of five-digit subscriber numbers or the last five digits of a subscriber number in case of six- or seven-digit numbers in long distance dialing. The pattern for this tag is XXXXX.
|
ZONE-ACCESS
|
This one-digit code identifies zone dialing. For this code within the Russian Federation, 2 is used.
|
B
|
This one-digit tag applies in long-distance or zone dialing. It represents the second digit of the intrazone code (according to the definitions of the numbering plan in the Russian Federation). If the local subscriber number is a six-digit number, it represents the first digit of the six-digit subscriber number (for example, bxxxxx). If the subscriber number is a seven-digit number, it represents the second digit of the subscriber number (for example, abxxxxx).
|
SUBSCRIBER5
|
This tag specifies the five-digit subscriber number in the form [1-79]XXXX. It applies in local calls within areas that have five-digit local numbers.
|
SUBSCRIBER6
|
This tag specifies the six-digit subscriber number in form of [1-79]XXXXX. It applies in local calls within areas that have six-digit local numbers.
|
INTERNATIONAL-ACCESS
|
This three-digit access code specifies international dialing. Calls that originate in the Russian Federation use 810 for this code.
|
SERVICE
|
This one-digit code identifies a particular emergency service in emergency calls within the Russian Federation. It can specify a digit from 1 to 4 that would correspond to a particular emergency service in the emergency number in the format 0[1-4].
|
A
|
This one-digit tag, which is used in long-distance or zone dialing, represents the first digit of the intrazone code (according to the definitions of numbering plan in the Russian Federation). If the subscriber number is a seven-digit number, this digit specifies the second digit of the subscriber number (for example, abxxxxx). If the subscriber number is a five-digit or six-digit number, A will equal 2.
|
SUBSCRIBER7
|
This tag specifies the seven-digit subscriber number in the form [1-79]xxxxxx. It applies in local calls within areas that have seven-digit local numbers.
|
ZERO-PREFIX
|
This one-digit prefix applies for emergency dialing. Within the Russian Federation, 0 applies for this prefix.
|
LONG-DISTANCE-ACCESS
|
This one-digit access code specifies long-distance dialing. Calls that originate in the Russian Federation use 8 for this code.
|
New Zealand Numbering Plan
This section describes DDIs and tags that are used in the New Zealand Numbering Plan (NZNP).
Discard Digits Instructions for NZNP
Table 14 lists DDIs and describes the effects of applying each DDI to a dialed number.
Table 14 DDIs for NZNP
DDI
|
Effect
|
Example
|
NoDigits
|
This DDI removes no digits.
|
Route pattern: 0.@
Dialed digit string: 00883795211
After applying DDI: 0883795211
|
PreDot
|
This DDI removes
•Cisco CallManager external access code
|
Route pattern: 0.@
Dialed digit string: 00883795211
After applying DDI: 0883795211
|
PreAt
|
This DDI removes all digits prior to the NZNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
|
Route pattern: 8.0@
Dialed digit string: 800883795211
After applying DDI: 0883795211
|
Trailing-#
|
This DDI removes
•End-of-dialing character for international calls
|
Route pattern: 0.@
Dialed digit string: 000116563175666#
After applying DDI: 000116563175666
|
PreDot Trailing-#
|
This DDI removes
•Cisco CallManager external access code
•End-of-dialing character for international calls
|
Route pattern: 0.@
Dialed digit string: 000116563175306#
After applying DDI: 00116563175306
|
PreAt Trailing #
|
This DDI removes all digits prior to the NZNP portion of the route pattern, including
•Cisco CallManager external access code
•PBX external access code
•End-of-dialing character for international call
|
Route pattern: 8.0@
Dialed digit string: 8000116563175306#
After applying DDI: 00116563175306
|
Tag Descriptions for NZNP
Table 15 lists and describes tags that are used in the NZNP.
Table 15 Tag Descriptions for NZNP
Tag
|
Description
|
AREA-CODE
|
This two-digit area code in the form 0[34679] identifies the area code for long-distance calls.
|
CARRIER-SELECT
|
This tag specifies the access code that is used to select an alternative carrier for this call and takes the form 05[1-9] or 050 or 0505.
|
COUNTRY-CODE
|
These one-, two-, or three-digit codes specify the destination country for international calls.
|
END-OF-DIALING
|
This single character identifies the end of the dialed-digit string. The # character specifies the end-of-dialing signal for international numbers that are dialed within the NZNP.
|
FREEPHONE-ACCESS
|
This tag specifies the four-digit access number for freephone calls. For New Zealand, this number is either 0508 or 0800.
|
FREEPHONE-SUBSCRIBER
|
This tag represents the digits following the freephone access code for freephone calls.
|
INTERNATIONAL-ACCESS
|
This tag specifies the two-digit access code for international dialing. For New Zealand, this code is 00.
|
MOBILE-ACCESS
|
This tag specifies the access code that is used to identify calls that are made to mobile phones. In New Zealand, this code takes the form 020, 021[012], 021[3-9], 025[01345789], 025[26],027,029.
|
MOBILE-SUBSCRIBER
|
This tag represents the remaining digits of the mobile number.
|
NATIONAL-NUMBER
|
This tag specifies the nation-specific part of the digit string for an international call.
|
OPERATOR
|
This tag specifies the operator code. In New Zealand, this code specifies 018 for local and 010 for international calls.
|
PAGING-ACCESS
|
This tag specifies the access code that is used to recognize calls to radio paging devices. For New Zealand, this code is 026 and 083.
|
PAGING-SUBSCRIBER
|
This tag represents the remaining digits of the radio paging number.
|
PREMIUM-ACCESS
|
This tag specifies the access code that is used to recognize calls to a premium rate service. For New Zealand, this code is 0900.
|
PREMIUM-SUBSCRIBER
|
This tag represents the remaining digits of a premium rate service.
|
SERVICE
|
This tag represents the general service and emergency numbers. These numbers takes the form 111, 1XX, 1[346], 017, 19[67], 502XXX.
|
SUBSCRIBER
|
This tag specifies the eight-digit "local" number for geographic numbers. This number takes the form XXXXXXX.
|
Obtaining Documentation
Cisco provides several ways to obtain documentation, technical assistance, and other technical resources. These sections explain how to obtain technical information from Cisco Systems.
Cisco.com
You can access the most current Cisco documentation on the World Wide Web at this URL:
http://www.cisco.com/univercd/home/home.htm
You can access the Cisco website at this URL:
http://www.cisco.com
International Cisco websites can be accessed from this URL:
http://www.cisco.com/public/countries_languages.shtml
Documentation CD-ROM
Cisco documentation and additional literature are available in a Cisco Documentation CD-ROM package, which may have shipped with your product. The Documentation CD-ROM is updated regularly and may be more current than printed documentation. The CD-ROM package is available as a single unit or through an annual or quarterly subscription.
Registered Cisco.com users can order a single Documentation CD-ROM (product number DOC-CONDOCCD=) through the Cisco Ordering tool:
http://www.cisco.com/en/US/partner/ordering/ordering_place_order_ordering_tool_launch.html
All users can order annual or quarterly subscriptions through the online Subscription Store:
http://www.cisco.com/go/subscription
Click Subscriptions & Promotional Materials in the left navigation bar.
Ordering Documentation
You can find instructions for ordering documentation at this URL:
http://www.cisco.com/univercd/cc/td/doc/es_inpck/pdi.htm
You can order Cisco documentation in these ways:
•Registered Cisco.com users (Cisco direct customers) can order Cisco product documentation from the Networking Products MarketPlace:
http://www.cisco.com/en/US/partner/ordering/index.shtml
•Nonregistered Cisco.com users can order documentation through a local account representative by calling Cisco Systems Corporate Headquarters (California, USA) at 408 526-7208 or, elsewhere in North America, by calling 800 553-NETS (6387).
Documentation Feedback
You can submit e-mail comments about technical documentation to bug-doc@cisco.com.
You can submit comments by using the response card (if present) behind the front cover of your document or by writing to the following address:
Cisco Systems
Attn: Customer Document Ordering
170 West Tasman Drive
San Jose, CA 95134-9883
We appreciate your comments.
Obtaining Technical Assistance
For all customers, partners, resellers, and distributors who hold valid Cisco service contracts, the Cisco Technical Assistance Center (TAC) provides 24-hour-a-day, award-winning technical support services, online and over the phone. Cisco.com features the Cisco Technical Support Website as an online starting point for technical assistance. If you do not hold a valid Cisco service contract, please contact your reseller.
Cisco Technical Support Website
The Cisco Technical Support Website ( http://www.cisco.com/tac) provides online documents and tools for troubleshooting and resolving technical issues with Cisco products and technologies. The Cisco Technical Support website is available 24 hours a day, 365 days a year.
Accessing all the tools on the Cisco Technical Support Website requires a Cisco.com user ID and password. If you have a valid service contract but do not have a login ID or password, register at this URL:
http://tools.cisco.com/RPF/register/register.do
Opening a TAC Case
Using the online TAC Case Open Tool ( http://www.cisco.com/tac/caseopen) is the fastest way to open P3 and P4 cases. (P3 and P4 cases are those in which your network is minimally impaired or for which you require product information.) After you describe your situation, the TAC Case Open Tool automatically recommends resources for an immediate solution. If your issue is not resolved using the recommended resources, your case will be assigned to a Cisco TAC engineer.
For P1 or P2 cases (P1 and P2 cases are those in which your production network is down or severely degraded) or if you do not have Internet access, contact Cisco TAC by telephone. Cisco TAC engineers are assigned immediately to P1 and P2 cases to help keep your business operations running smoothly.
To open a case by telephone, use one of the following numbers:
Asia-Pacific: +61 2 8446 7411 (Australia: 1 800 805 227)
EMEA: +32 2 704 55 55
USA: 1 800 553-2447
For a complete listing of Cisco TAC contacts, go to this URL:
http://www.cisco.com/warp/public/687/Directory/DirTAC.shtml
TAC Case Priority Definitions
To ensure that all cases are reported in a standard format, Cisco has established case priority definitions.
Priority 1 (P1)—Your network is "down" or there is a critical impact to your business operations. You and Cisco will commit all necessary resources around the clock to resolve the situation.
Priority 2 (P2)—Operation of an existing network is severely degraded, or significant aspects of your business operation are negatively affected by inadequate performance of Cisco products. You and Cisco will commit full-time resources during normal business hours to resolve the situation.
Priority 3 (P3)—Operational performance of your network is impaired, but most business operations remain functional. You and Cisco will commit resources during normal business hours to restore service to satisfactory levels.
Priority 4 (P4)—You require information or assistance with Cisco product capabilities, installation, or configuration. There is little or no effect on your business operations.
Obtaining Additional Publications and Information
Information about Cisco products, technologies, and network solutions is available from various online and printed sources.
•The Cisco Product Catalog describes the networking products offered by Cisco Systems, as well as ordering and customer support services. Access the Cisco Product Catalog at this URL:
http://www.cisco.com/en/US/products/products_catalog_links_launch.html
•Cisco Press publishes a wide range of general networking, training and certification titles. Both new and experienced users will benefit from these publications. For current Cisco Press titles and other information, go to Cisco Press online at this URL:
http://www.ciscopress.com
•Packet magazine is the Cisco quarterly publication that provides the latest networking trends, technology breakthroughs, and Cisco products and solutions to help industry professionals get the most from their networking investment. Included are networking deployment and troubleshooting tips, configuration examples, customer case studies, tutorials and training, certification information, and links to numerous in-depth online resources. You can access Packet magazine at this URL:
http://www.cisco.com/packet
•iQ Magazine is the Cisco bimonthly publication that delivers the latest information about Internet business strategies for executives. You can access iQ Magazine at this URL:
http://www.cisco.com/go/iqmagazine
•Internet Protocol Journal is a quarterly journal published by Cisco Systems for engineering professionals involved in designing, developing, and operating public and private internets and intranets. You can access the Internet Protocol Journal at this URL:
http://www.cisco.com/en/US/about/ac123/ac147/about_cisco_the_internet_protocol_journal.html
•Training—Cisco offers world-class networking training. Current offerings in network training are listed at this URL:
http://www.cisco.com/en/US/learning/index.html
This document is to be used in conjunction with the documents listed in the "Related Documentation" section.
CCIP, CCSP, the Cisco Arrow logo, the Cisco Powered Network mark, Cisco Unity, Follow Me Browsing, FormShare, and StackWise are trademarks of Cisco Systems, Inc.; Changing the Way We Work, Live, Play, and Learn, and iQuick Study are service marks of Cisco Systems, Inc.; and Aironet, ASIST, BPX, Catalyst, CCDA, CCDP, CCIE, CCNA, CCNP, Cisco, the Cisco Certified Internetwork Expert logo, Cisco IOS, the Cisco IOS logo, Cisco Press, Cisco Systems, Cisco Systems Capital, the Cisco Systems logo, Empowering the Internet Generation, Enterprise/Solver, EtherChannel, EtherSwitch, Fast Step, GigaStack, Internet Quotient, IOS, IP/TV, iQ Expertise, the iQ logo, iQ Net Readiness Scorecard, LightStream, MGX, MICA, the Networkers logo, Networking Academy, Network Registrar, Packet, PIX, Post-Routing, Pre-Routing, RateMUX, Registrar, ScriptShare, SlideCast, SMARTnet, StrataView Plus, Stratm, SwitchProbe, TeleRouter, The Fastest Way to Increase Your Internet Quotient, TransPath, and VCO are registered trademarks of Cisco Systems, Inc. and/or its affiliates in the U.S. and certain other countries.
All other trademarks mentioned in this document or Web site are the property of their respective owners. The use of the word partner does not imply a partnership relationship between Cisco and any other company. (0402R)
Copyright © 2004 Cisco Systems, Inc. All rights reserved.