Nortel Networks 1000 User Manual

Architecture

847

When tracking a reference, the clock controller uses an algorithm to
match its frequency to the frequency of the incoming clock. When the
frequencies are very near to being matched, the clock controller is locked
onto the reference. The clock controller makes small adjustments to its
own frequency until both the incoming and system frequencies correspond.

If the incoming clock reference is stable, the internal clock controller tracks
it, locks onto it, and matches frequencies exactly. Occasionally, however,
environmental circumstances cause the external or internal clocks to drift.
When this happens, the internal clock controller briefly enters the tracking
stage. The green LED flashes momentarily until the clock controller is
locked onto the reference once again.

If the incoming reference is unstable, the internal clock controller remains
continuously in the tracking stage, with the LED flashing green all the
time. This condition does not present a problem, rather, it shows that the
clock controller is continually attempting to lock onto the signal. If slips
are occurring, however, it means that there is a problem with the clock
controller or the incoming line.

Free-run (non-tracking)

In free-run mode, the clock controller does not

synchronize on any source, it provides its own internal clock to the system.
This mode can be used when the CS 1000E, CS 1000M Cabinet, and
Meridian 1 PBX 11C Cabinetare used as a master clock source for other
systems in the network. Free-run mode is undesirable if the CS 1000E,
CS 1000M Cabinet, and Meridian 1 PBX 11C Cabinetare intended to be a
slave. It can occur, however, when both the primary and secondary clock
sources are lost due to hardware faults or when invoked by using software
commands.

Tracking mode

There are two stages to clock controller tracking:

•

tracking a reference, and

•

locked onto a reference.

When tracking a reference, the clock controller uses an algorithm to
match its frequency to the frequency of the incoming clock. When the
frequencies are very near to being matched, the clock controller is locked
onto the reference. The clock controller makes small adjustments to its
own frequency until both the incoming and system frequencies correspond.

If the incoming clock reference is stable, the internal clock controller tracks
it, locks onto it, and matches frequencies exactly. Occasionally, however,
environmental circumstances cause the external or internal clocks to drift.
When this happens, the internal clock controller briefly enters the tracking
stage. The green LED flashes momentarily until the clock controller is
locked onto the reference once again.

Nortel Communication Server 1000

Circuit Card Reference

NN43001-311

02.06

Standard

27 August 2008

Copyright © 2003-2008 Nortel Networks

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