ZL30117GGG ZARLINK [Zarlink Semiconductor Inc], ZL30117GGG Datasheet - Page 11

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ZL30117GGG

Manufacturer Part Number
ZL30117GGG
Description
SONET/SDH OC-48/OC-192 Line Card Synchronizer
Manufacturer
ZARLINK [Zarlink Semiconductor Inc]
Datasheet

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Part Number:
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ZL30117
Data Sheet
1.2
DPLL Mode Of Operation
The DPLL supports three modes of operation - free-run, normal, and holdover. The mode of operation can be
manually set or controlled by an automatic state machine as shown in Figure 2.
All references are monitored
for frequency accuracy and
Reset
Free-Run
phase regularity, and at least
one reference is qualified.
Another reference is
Lock
Acquisition
qualified and available
for selection
Phase lock on
No references are
the selected
qualified and
reference is
available for
Holdover
achieved
selection
Selected reference
Normal
Normal
fails
(Locked)
(Locked)
Figure 2 - Automatic Mode State Machine
Free-run
The free-run mode occurs immediately after a reset cycle or when the DPLL has never been synchronized to a
reference input. In this mode, the frequency accuracy of the output clocks is equal to the frequency accuracy of the
external master oscillator.
Lock Acquisition
The input references are continuously monitored for frequency accuracy and phase regularity. If at least one of the
input references is qualified by the reference monitors, then the DPLL will begin lock acquisition on that input. Given
a stable reference input, the ZL30117 will enter in the Normal (locked) mode.
Normal (locked)
The usual mode of operation for the DPLL is the normal mode where the DPLL phase locks to a selected qualified
reference input and generates output clocks and frame pulses with a frequency accuracy equal to the frequency
accuracy of the reference input. While in the normal mode, the DPLL’s clock and frame pulse outputs comply with
the MTIE and TDEV wander generation specifications as described in Telcordia and ITU-T telecommunication
standards.
Holdover
When the DPLL operating in the normal mode loses its reference input, and no other qualified references are
available, it will enter the holdover mode and continue to generate output clocks based on historical frequency data
collected while the DPLL was synchronized. The transition between normal and holdover modes is controlled by
the DPLL so that its initial frequency offset is better than 100 ppb. The frequency drift after this transition period is
dependant on the frequency drift of the external master oscillator.
11
Zarlink Semiconductor Inc.

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