HP MSR SERIES Configuration Manual page 711

Table 268 Configuration items
Item
Physical Parameters Configuration
Working Mode
Bound Timeslot
Number
Frame Check Mode
Line Coding
TDM Clock Source
Status
If you select the PRI Trunk Signaling option, the page as shown in
Description
Configure the working mode of the T1 interface:
•
None—Remove the existing bundle.
•
PRI Trunk Signaling—Bundle timeslots on a T1 interface into a PRI group.
By default, no PRI group is created.
Specify the timeslots to be bundled.
•
ESF—Perform extended super frame (ESF).
•
SF—Perform super frame (SF).
•
B8ZS—The line coding format is bipolar 8 zero substitution (B8ZS).
•
AMI—The line coding format is alternate mark inversion (AMI).
•
Internal—Set the internal crystal oscillator TDM clock as the TDM clock source on
the T1 interface. After that, the T1 interface obtains clock from the crystal oscillator
on the main board. If it fails to do that, the interface obtains clock from the crystal
oscillator on its T1 card. Because SIC cards are not available with crystal
oscillator clocks, T1 interfaces on SIC cards can only obtain clock from the main
board. The internal clock source is also called master clock mode in some
features.
•
Line—Set the line TDM clock as the TDM clock source on the T1 interface. After
that, the T1 interface obtains clock from the remote device through the line. The
line clock source is called as slave clock mode in some features.
•
Line primary—Set the T1 interface to preferably use the line TDM clock as the
TDM clock source. After that, the T1 interface always attempts to use the line TDM
clock prior to any other clock sources.
By default, the TDM clock source for a T1 interface is the internal clock.
When digital voice T1 interfaces perform TDM timeslot interchange, it is important
for them to achieve clock synchronization to prevent frame slips and bit errors.
Depending on your configurations on T1 interfaces at the CLI, the system adopts
different clocking approaches. When there is a subcard VCPM on the main board,
the clock distribution principle is as follows:
•
If the line keyword is specified for all interfaces, the clock on the interface with the
lowest number is adopted. In case the interface goes down, the clock on the
interface with the next second number is adopted.
•
If line primary is specified for interface X and line or internal is specified for other
interfaces, the clock on interface X is adopted.
•
If line is specified for interface X and internal is specified for other interfaces, the
clock on interface X is adopted.
•
Generally, you cannot set the clock source for all interfaces in a system as internal
to prevent frame slips and bit errors. However, you can do this if the remote T1
interfaces adopt the line clock source.
When there is no VCPM on the main board, the configuration of each MIM/FIC is
independent but only one interface can be set as line primary.
•
Enable—Enable the T1 interface.
•
Disable—Disable the T1 interface.
694
Figure 720 appears.