|
The following sections are provided:
This feature adds R2 signaling support using the Cisco AS5800 feature card. R2 support using the MICA modems already exists. E1 R2 Signaling is being re-released in Cisco IOS Release 12.2(1)Xx to support customers desiring E1 R2 signaling with specific VoIP features.
R2 signaling is an international signaling standard that is common to channelized E1 networks. There is no single standard for R2 signaling. The ITU-T Q.400-Q.490 recommendation defines R2, but a number of countries implement R2 in entirely different ways. Cisco Systems addresses this challenge by supporting many localized implementations of R2 signaling in its Cisco IOS software.
Cisco Systems' E1 R2 signaling default is ITU, which supports the following countries: Denmark, Finland, Germany, Russia (ITU variant), Hong Kong (ITU variant), and South Africa (ITU variant). The expression "ITU variant" means there are multiple R2 signaling types in the specified country.
Note Country names and regions followed by an asterisk (*) were first supported in Cisco IOS Release 11.3(2)T. |
This feature is now supported on the Cisco AS5800 access server.
None.
This section describes how to configure E1 R2 signaling.
R2 signaling is channelized E1 signaling used in Europe, Asia, and South America. It is equivalent to channelized T1 signaling in North America. There are two types of R2 signaling: line signaling and interregister signaling. R2 line signaling includes R2 digital, R2 analog, and R2 pulse. R2 interregister signaling includes R2 compelled, R2 non compelled, and R2 semi compelled. These signaling types are configured using the ds0-group (controller e1) command.
Many countries have their own E1 R2 variant specifications, which supplement the ITU-T Q.400-Q.490 recommendation for R2 signaling. Unique E1 R2 signaling parameters for specific countries are set by issuing the cas-custom channel command followed by the country name command.
Cisco's implementation of R2 signaling has DNIS support turned on by default. If you enable the ani option, the collection of DNIS information is still performed. Specifying the ani option does not disable DNIS collection. DNIS is the number being called. ANI is the caller's number. For example, if you are configuring router A to call router B, then the DNIS number is assigned to router B, the ANI number is assigned to router A. ANI is similar to Caller ID.
Figure 1 shows a sample network topology for using E1 R2 signaling with a Cisco AS5800. All four controllers on the access server are configured with R2 digital signaling. Additionally, localized R2 country settings are enabled on the access server. For a sample configuration, see the "Configuration Example" section.
To configure E1 R2 signaling, use the following commands beginning in global configuration mode:
Step | Command | Purpose |
---|---|---|
1. | controller e1 number | Specifies the E1 controller that you want to configure with R2 signaling. |
2. | ds0-group channel timeslots range type {r2-analog | r2-digital | r2-pulse} [dtmf | r2-compelled [ani] | r2-non-compelled [ani] | r2-semi-compelled [ani]] | Configures R2 channel associated signaling on the E1 controller. For a complete description of the available R2 options, see the ds0-group (controller e1) command reference page. |
3. | cas-custom channel | Enters cas-custom mode. In this mode, you can localize E1 R2 signaling parameters, such as specific R2 country settings for Hong Kong. For the customization to take effect, the channel number used in the cas-custom command must match the channel number specified by the ds0-group command. |
4. | The following signaling commands are available: ani-digits answer-signal caller-digits category country default dnis-digits invert-abcd ka kd metering nc-congestion unused-abcd | (Optional) Customizes E1 R2 signaling parameters for your E1 networking environment. Cisco strongly recommends that you specify your country type using the country command. Otherwise, the default will be ITU. See the cas-custom command reference page for more information about each signaling command. |
For an E1 R2 configuration example, see the "Configuration Example" section.
To verify your E1 R2 signaling configuration, do the following:
5800#
show controller e1 0
E1 0 is up.
Applique type is Channelized E1 - balanced
No alarms detected.
Version info of Slot 0: HW: 2, Firmware: 4, PLD Rev: 2
Manufacture Cookie is not programmed.
Framing is CRC4, Line Code is HDB3, Clock Source is Line Primary.
Data in current interval (785 seconds elapsed):
0 Line Code Violations, 0 Path Code Violations
0 Slip Secs, 0 Fr Loss Secs, 0 Line Err Secs, 0 Degraded Mins
0 Errored Secs, 0 Bursty Err Secs, 0 Severely Err Secs, 0 Unavail Secs
Total Data (last 13 15 minute intervals):
0 Line Code Violations, 0 Path Code Violations,
0 Slip Secs, 12 Fr Loss Secs, 0 Line Err Secs, 0 Degraded Mins,
0 Errored Secs, 0 Bursty Err Secs, 0 Severely Err Secs, 12 Unavail Secs
5800# show modem csm 1/0
MODEM_INFO: slot 1, port 0, unit 0, tone r2-compelled, modem_mask=0x0000,
modem_port_offset=0
tty_hwidb=0x60E63E4C, modem_tty=0x60C16F04, oobp_info=0x00000000, modem_pool=0x60BC60CC
modem_status(0x0002): VDEV_STATUS_ACTIVE_CALL.
csm_state(0x0205)=CSM_IC5_CONNECTED, csm_event_proc=0x600CFF70, current call thru CAS
line
invalid_event_count=0, wdt_timeout_count=0
wdt_timestamp_started is not activated
wait_for_dialing:False, wait_for_bchan:False
pri_chnl=TDM_PRI_STREAM(s0, u3, c7), modem_chnl=TDM_MODEM_STREAM(s1, c0)
dchan_idb_start_index=0, dchan_idb_index=0, call_id=0x0239, bchan_num=6
csm_event=CSM_EVENT_DSX0_CONNECTED, cause=0x0000
ring_no_answer=0, ic_failure=0, ic_complete=3
dial_failure=0, oc_failure=0, oc_complete=0
oc_busy=0, oc_no_dial_tone=0, oc_dial_timeout=0
remote_link_disc=2, stat_busyout=2, stat_modem_reset=0
oobp_failure=0
call_duration_started=00:04:56, call_duration_ended=00:00:00,
total_call_duration=00:01:43
The calling party phone number =
The called party phone number = 9993003
total_free_rbs_timeslot = 0, total_busy_rbs_timeslot = 0, total_dynamic_busy_rbs_timeslot
= 0, total_static_busy_rbs_timeslot = 0, min_free_modem_threshold = 0
If the connection does not come up, check the following:
If you see errors on the line, or the line is going up and down, check the following:
This section shows a sample configuration of E1 R2 signaling. In most cases, the same R2 signaling type is configured on each E1 controller. The following example configures R2 signaling and customizes R2 parameters on controller E1 2 of a Cisco AS5800:
as5800# configure terminal
Enter configuration commands, one per line. End with CNTL/Z.
Step 2 Specify the E1 controller that you want to configure with R2 signaling using the controller e1 number global configuration command. A controller informs the access server how to distribute or provision individual timeslots for a connected channelized E1 line. You must configure one E1 controller for each E1 line.
as5800(config)# controller e1 2
Step 3 Configure channel-associated signaling with the ds0-group channel timeslots range type signal command. The signaling type forwarded by the connecting telco switch must match the signaling configured on the Cisco AS5800. The Cisco IOS configuration options are r2-analog, r2-digital, or r2-pulse.
as5800(config-controller)# ds0-group 1 timeslots 1-31 type ?
e&m-fgb E & M Type II FGB
e&m-fgd E & M Type II FGD
e&m-immediate-start E & M Immediate Start
fxs-ground-start FXS Ground Start
fxs-loop-start FXS Loop Start
p7 P7 Switch
r2-analog R2 ITU Q411
r2-digital R2 ITU Q421
r2-pulse R2 ITU Supplement 7
sas-ground-start SAS Ground Start
sas-loop-start SAS Loop Start
The following example specifies R2 ITU Q421 digital line signaling (r2-digital). This example also specifies R2 compelled register signaling and provisions the ANI ADDR option.
as5800(config-controller)# ds0-group 1 timeslots 1-31 type r2-digital r2-compelled
ani
as5800(config-controller)#
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 1 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 2 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 3 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 4 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 5 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 6 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 7 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 8 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 9 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 10 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 11 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 12 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 13 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 14 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 15 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 17 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 18 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 19 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 20 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 21 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 22 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 23 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 24 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 25 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 26 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 27 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 28 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 29 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 30 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 31 is up
Note For a description of the supported R2 signaling options, see the ds0-group (controller e1) command reference page. The actual R2 channel-associated signaling is configured on the 16th timeslot, which is the reason the timeslot does not come up in the example output. |
Step 4 Customize some of the E1 R2 signaling parameters with the cas-custom channel controller configuration command. This example specifies the default R2 settings for Argentina. See the cas-custom command reference page for a detailed description of these options.
as5800(config-controller)# cas-custom 1
as5800(config-ctrl-cas)# ?
CAS custom commands:
ani-digits Expected number of ani digits
answer-signal Answer signal to be used
caller-digits Digits to be collected before requesting CallerID
category Category signal
country Country Name
default Set a command to its defaults
dnis-digits Expected number of DNIS digits
exit Exit from cas custom mode
invert-abcd invert the ABCD bits before tx and after rx
ka KA Signal
kd KD Signal
metering R2 network is sending metering signal
nc-congestion Non Compelled Congestion signal
no Negate a command or set its defaults
unused-abcd Unused ABCD bit values
as5800(config-ctrl-cas)# country ?
argentina Argentina
australia Australia
brazil Brazil
china China
columbia Columbia
.
.
.
as5800(config-ctrl-cas)# country argentina ?
use-defaults Use Country defaults
<cr>
as5800(config-ctrl-cas)# country argentina use-defaults
Note Cisco highly recommends that you specify your country's default settings. To display a list of supported countries, issue the country ? command. The default setting for all countries is ITU. |
This section documents new or modified commands. All other commands used with this feature are documented in the Cisco IOS Release 11.3 command references.
The following commands are modified:
To customize E1 R2 signaling parameters for a particular E1 channel group on a channelized E1 line, use the cas-custom controller configuration command. Use the no form of this command to disable the signaling customization.
cas-custom channel
Syntax Description
channel Specifies a single channel group number, which can be between 0 and 30. This channel group number must match the channel number specified in the ds0-group command.
Defaults
No customized signaling parameters are set. If you do not specify a country name using the country name command, which is described in Table 1, ITU is the selected default signal.
Command Modes
Controller configuration.
Command History
11.3(2)T This command was introduced. 12.1(5)T This command was integrated into Cisco IOS Release 12.1(5)T.
Release
Modification
Usage Guidelines
This command first appeared in Cisco IOS Release 11.2 P.
The customization parameters set by the cas-custom channel command are applied to the same channel group number used in the ds0-group channel timeslots range type signal command. These channel group numbers must match. Otherwise, the customized features specified by the cas-custom command will not be applied to the ds0-group command's configuration. The signaling customization will not take effect. See Example 1.
However, you will not need to configure or set more than one channel group number per E1 line in most cases. Though rarely used, it is possible to split a single E1 (timeslots 1 to 31) into two groups (for example, 1 to 15 on group 1 and timeslots 17 to 31 in group 2).
Cisco strongly recommends that you use the use-defaults option when specifying a particular country type. See the country name command in Table 1. This additional keyword ensures that all the local country settings are correctly enabled. For example, issue the country greece use-defaults command. If the use-defaults option is not specified, generic ITU will be the default setting for all countries. See Example 2.
You can configure the system to deviate from a country's default settings as defined by Cisco. To do this, choose from the following list of commands described in Table 1: ani-digits min number max number, answer-signal {group-a | group-b} number, caller-digits number, category number, dnis-digits min number max number, invert-abcd, ka number, kd number, metering, nc-congestion, and unused-abcd value. To return a country back to its country specific default settings, issue the country name use-defaults command. To return a country back to the ITU standard, issue the default country name use-defaults command. See Example 3 and Example 4.
Table 1 Table 1 shows a list of command options in cas-custom mode, which is used to customize R2 signaling settings.
CAS Custom Command | Purpose |
---|---|
ani-digits min number max number | Expected number of ANI digits. The minimum number of collected digits is set by min number. Replace number with a value between 0 and 64. The maximum number of collected digits is set by max number. Replace number with a value between 5 and 64. The default is 0 digits, which is the ITU default. |
answer-signal {group-a | group-b} number | Answer signal to be used. You can specify the group A signal or the group B signal. The signal number can be 1 to 15. Default is group-b 6, which is the ITU default. |
caller-digits number | Specifies the number of digits the access server needs to collect before it requests ANI or CallerID information. The digits can be from 1 to 10. Default is 1, which is the ITU default. |
category number | Specifies the type of incoming call, which is mapped to a group signal number. Signal numbers from 1 to 15 are available. Default is 1, which is the ITU default. |
country name | Specifies local country settings to use with R2 signaling. Replace the name variable with one of the following supported country names. Cisco strongly recommends that you include the use-defaults option, which enables the default settings for a specific country. Default country setting is ITU.
|
|
|
|
|
default | Sets a command to its default setting. |
dnis-digits min number max number | Expected number of DNIS digits. The minimum number of collected digits is set by min number. Replace number with a value between 0 and 64. The maximum number of collected digits is set by max number. Replace number with a value between 5 and 64. The default is 0 digits, which is the ITU default. |
exit | Takes you out of cas custom mode. |
invert-abcd | Inverts the ABCD bits before tx and after rx. This feature is disabled by default, which is the ITU default. |
ka number | Specifies the KA signal code. You can choose 1 to 15. Default is 0, which is the ITU default. |
kd number | Specifies the KD signal code. You can choose 1 to 15. Default is 0, which is the ITU default. |
metering | Specifies sending a metering pulse when the access server is making an outgoing call. Metering is turned off by default, which is the ITU default. |
nc-congestion | Specifies the noncompelled congestion signal. This signal is sent to the central office when the access server is congested and cannot accept the call. The default is B4, which is the ITU default. |
no | Negates a command or sets its defaults. |
unused-abcd value | Specifies unused ABCD bit values, which can have a 0 or 1 bit value. This feature is disabled by default, which is the ITU default. |
The following example displays the available signaling parameters after you enter cas-custom mode. Notice that the same channel group 1 is specified in the ds0-group command and the cas-custom command.
router# configure terminal
Enter configuration commands, one per line. End with CNTL/Z
router(config)# controller e1 1/0/1
router(config-controller) ds0-group 1 timeslots 1-31 type r2-digital r2-compelled
router(config-controller) cas-custom 1
router(config-ctrl-cas)# ?
CAS custom commands:
ani-digits Expected number of ANI digits
answer-signal Answer signal to be used
caller-digits Digits to be collected before requesting CallerID
category Category signal
country Country Name
default Set a command to its defaults
dnis-digits Expected number of DNIS digits
exit Exit from cas custom mode
invert-abcd invert the ABCD bits before tx and after rx
ka KA Signal
kd KD Signal
metering R2 network is sending metering signal
nc-congestion Non Compelled Congestion signal
no Negate a command or set its defaults
unused-abcd Unused ABCD bit values
You can localize your R2 configuration for a specific country. Don't forget to include the use-defaults option as described in Table 1. For example, use the country argentina use-defaults command for a R2 scenario in Argentina.
router(config-ctrl-cas)# country ?
argentina Argentina
australia Australia
brazil Brazil
china China
columbia Columbia
costarica Costa Rica
easteurope East Europe
ecuador-itu Ecuador ITU
ecuador-lme Ecuador LME
greece Greece
guatemala Guatemala
hongkong-china Hong Kong (China variant)
indonesia Indonesia
israel Israel
itu ITU
korea Korea
malaysia Malaysia
newzealand New Zealand
paraguay Paraguay
peru Peru
philippines Philippines
saudiarabia Saudi Arabia
singapore Singapore
southafrica-panaftel South Africa Panaftel
telmex Telmex
telnor Telnor
thailand Thailand
uruguay Uruguay
venezuela Venezuela
vietnam Vietnam
router(config-ctrl-cas)# country argentina ?
use-defaults Use Country defaults
<cr>
router(config-ctrl-cas)# country argentina use-defaults
The following example customizes the signaling for channel group 1. The configuration collects 3 digits before it requests ANI information for analog calls received on a Cisco AS5800 in Argentina.
router(config-controller)# cas-custom 1
router(config-ctrl-cas)# country argentina use-defaults
router(config-ctrl-cas)# caller-digits 3
router(config-controller)# ^z
router(config)#
Because cas-custom mode gives you the flexibility to customize R2 parameters, the margin for user error increases. Therefore, the Cisco IOS software enables you to return a country back to its default R2 settings using the use-defaults option. The following example begins by bringing up Argentina's default settings, changing a few customization parameters, then returning the Argentina R2 setting back to its original state.
router(config-ctrl-cas)# country argentina use-defaults
router(config-ctrl-cas)# caller-digits 3
router(config-ctrl-cas)# unused-abcd 1
router(config-ctrl-cas)# metering
router(config-ctrl-cas)# country argentina use-defaults
Related Commands
ds0-group (controller E1)
To configure channel associated signaling on an E1 controller, use the ds0-group controller configuration command. Use the no form of this command to disable channel associated signaling for one or more timeslots.
ds0-group channel timeslots range type signal
Syntax Description
channel Specifies a single channel group number. Replace the channel variable with a number between 0 and 30. timeslots range Specifies a timeslot range, which can be from 1 to 31. You can specify a timeslot range (for example, 1-31), individual timeslots separated by commas (for example 1, 3, 5), or a combination of the two (for example 1-14, 15, 17-31). The 16th time slot is reserved for out-of-band signaling. type signal Specifies the type of channel associated signaling. Configure the signal type that your central office uses. Replace the signal variable with one of the following signal types: The following descriptions are provided for the previous three R2 syntax bullets: r2-analogSpecifies R2 ITU Q411 analog line signaling, which reflects the on/off switching of a tone in frequency-division multiplexing circuits (before TDM circuits were created). The tone is used for line signaling. r2-digitalSpecifies R2 ITU Q421 digital line signaling, which is the most common signaling configuration. The A and B bits are used for line signaling. r2-pulseSpecifies R2 ITU supplement 7 pulse line signaling, which is a transmitted pulse that indicates a change in the line state. dtmfSpecifies the DTMF tone signaling. r2-compelled [ani]Specifies R2 compelled register signaling. You can also specify provisioning the ANI addr option. r2-non-compelled [ani]Specifies R2 noncompelled register signaling. r2-semi-compelled [ani]Specifies R2 semicompelled register signaling.
Defaults
No channel associated signaling is configured on the controller. All R2 signaling types have DNIS turned on by default.
Command Modes
Controller configuration.
Command History
12.0(5)T This command was introduced. 12.1(5)T This command was integrated into Cisco IOS Release 12.1(5)T.
Release
Modification
Usage Guidelines
This command first appeared in Cisco IOS Release 12.0(5)T.
Use this command to configure support for incoming and outgoing call signals (such as on-hook and off-hook) on each E1 controller.
If you specify the timeslot range 1-31, the system software automatically uses the 16th timeslot to transmit the channel associated signaling.
The signaling you configure on the access server must match the signaling used by the central office. For example if the central office switch is forwarding R2 analog signaling to a Cisco AS5800, then the access server's E1 controller must also be configured for R2 analog signaling (r2-analog).
All R2 signaling options have DNIS support turned on by default. If you enable the ani option, the collection of DNIS information is still performed. Specifying the ani option does not disable DNIS. DNIS is the number being called. ANI is the caller's number. For example, if you are configuring router A to call router B, then the DNIS number is router B, the ANI number is router A. ANI is very similar to Caller ID.
To customize the R2 signaling parameters, refer to the cas-custom controller configuration command. When you enable the ds0-group command, the cas-custom command is automatically setup to be polled for configuration information. However, unless you enable or turn on specific features with the cas-custom command, the cas-custom feature has an empty set of signaling parameters.
DNIS is automatically collected for modem pools and R2 tone signaling. You do not need to specify the collection of DNIS information with the ds0-group command. However, if you are using non-R2 tone signaling, the system must be manually configured to collect DNIS information. For non-R2 cas signaling, DNIS collection is done only for E&M-fgb.
Examples
In most cases, you will configure the same channel associated signaling on each E1 controller. The following examples configure signaling and customized parameters on controller E1 1using the ds0-group and cas-custom controller configuration commands.
The actual channel associated signaling is configured on the 16th timeslot, which is the reason why this timeslot does not come up in the following output.
router# configure terminal
Enter configuration commands, one per line. End with CNTL/Z.
router(config)# controller e1 1/0/2
router(config-controller)# ds0-group 1 timeslots 1-31 type r2-digital r2-compelled ani
router(config-controller)#
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 1 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 2 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 3 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 4 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 5 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 6 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 7 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 8 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 9 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 10 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 11 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 12 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 13 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 14 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 15 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 17 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 18 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 19 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 20 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 21 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 22 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 23 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 24 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 25 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 26 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 27 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 28 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 29 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 30 is up
%DSX0-5-RBSLINEUP: RBS of controller 0 timeslot 31 is up
The following example shows all the supported E1 signaling types on a Cisco AS5800:
router(config-controller)# ds0-group 1 timeslots 1-31 type ?
e&m-fgb E & M Type II FGB
e&m-fgd E & M Type II FGD
e&m-immediate-start E & M Immediate Start
fxs-ground-start FXS Ground Start
fxs-loop-start FXS Loop Start
p7 P7 Switch
r2-analog R2 ITU Q411
r2-digital R2 ITU Q421
r2-pulse R2 ITU Supplement 7
sas-ground-start SAS Ground Start
sas-loop-start SAS Loop Start
router(config-controller)# ds0-group 1 timeslots 1-31 type r2-analog ?
dtmf DTMF tone signalling
r2-compelled R2 Compelled Register Signalling
r2-non-compelled R2 Non Compelled Register Signalling
r2-semi-compelled R2 Semi Compelled Register Signalling
<cr>
R2 signaling parameters can be customized with the cas-custom controller configuration command:
router(config-controller)# cas-custom 1
router(config-ctrl-cas)# ?
CAS custom commands:
caller-digits Digits to be collected before requesting CallerID
category Category signal
country Country Name
default Set a command to its defaults
exit Exit from cas custom mode
invert-abcd invert the ABCD bits before tx and after rx
metering R2 network is sending metering signal
nc-congestion Non Compelled Congestion signal
no Negate a command or set its defaults
For additional dial-related software configuration information, see the following publications:
ANIAnswer Number Identification (calling party number).
DNISDialed Number Identification Service.
DTMFDual Tone Multifrequency.
E1Wide-area digital transmission scheme used predominantly in Europe that
carries data at a rate of 2.048 Mbps.
ITUInternational Telecommunication Union (formerly CCITT).
TDMTime Division Multiplexing.
Posted: Tue Aug 28 07:59:34 PDT 2001
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