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參數(shù)資料
| 型號(hào): | MT9044 |
| 廠商: | Mitel Networks Corporation |
| 英文描述: | T1/E1/OC3 System Synchronizer(T1/E1/OC3 系統(tǒng)同步裝置(由一個(gè)數(shù)字鎖相環(huán)組成)) |
| 中文描述: | T1/E1/OC3系統(tǒng)同步器(T1/E1/OC3系統(tǒng)同步裝置(由一個(gè)數(shù)字鎖相環(huán)組成)) |
| 文件頁(yè)數(shù): | 9/34頁(yè) |
| 文件大?。?/td> | 150K |
| 代理商: | MT9044 |
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MT9044
9
Manual Control
Manual Control should be used when either very
simple MT9044 control is required, or when complex
control is required which is not accommodated by
Automatic Control. For example, very simple control
could include operation in a system which only
requires Normal Mode with reference switching using
only a single input stimulus (RSEL). Very simple
control would require no external circuitry. Complex
control could include a system which requires state
changes between Normal, Holdover and Freerun
Modes based on numerous input stimuli. Complex
control would require external circuitry, typically a
microcontroller.
Under Manual Control, one of the three modes is
selected by mode/control select pins MS2 and MS1.
The active reference input (PRI or SEC) is selected
by the RSEL pin as shown in Table 2. Refer to Table
4 and Figure 7 for details of the state change
sequences.
Automatic Control
Automatic Control should be used when simple
MT9044 control is required, which is more complex
than the very simple control provide by Manual
Control with no external circuitry, but not as complex
as
Manual
Control
with
example, simple control could include operation in a
system
which
can
be
Automatic Control State Diagram shown in Figure 8.
a
microcontroller.
For
accommodated
by
the
Automatic Control is also selected by mode/control
pins MS2 and MS1. However, the mode and active
reference source is selected automatically by the
internal Automatic State Machine (See Figure 6).
The mode and reference changes are based on the
logic levels on the LOS1, LOS2 and GTi control pins.
Refer to Table 5 and Figure 8 for details of the state
change sequences.
Normal Mode
Normal Mode is typically used when a slave clock
source, synchronized to the network is required.
In Normal Mode, the MT9044 provides timing (C1.5o,
C2o, C3o, C4o, C8o, C16o, and C19) and frame
synchronization (F0o, F8o, F16o, RSP, TSP) signals,
which are synchronized to one of two reference
inputs (PRI or SEC). The input reference signal may
have a nominal frequency of 8kHz, 1.544MHz or
2.048MHz.
From a reset condition, the MT9044 will take up to 25
seconds for the output signal to be phase locked to
the selected reference.
The
dependent as shown in State Tables 4 and 5. The
reference frequencies are selected by the frequency
control pins FS2 and FS1 as shown in Table 1.
selection
of
input
references
is
control
Holdover Mode
Holdover Mode is typically used for short durations
(e.g. 2 seconds) while network synchronization is
temporarily disrupted.
In Holdover Mode, the MT9044 provides timing and
synchronization signals, which are not locked to an
external reference signal, but are based on storage
techniques. The storage value is determined while
the device is in Normal Mode and locked to an
external reference signal.
When in Normal Mode, and locked to the input
reference signal, a numerical value corresponding to
the MT9044 output frequency is stored alternately in
two memory locations every 30ms. When the device
is switched into Holdover Mode, the value in memory
from between 30ms and 60ms is used to set the
output frequency of the device.
The
±
0.05ppm, which translates to a worst case 35 frame
(125us) slips in 24 hours. This meets the Bellcore
GR-1244-CORE Stratum 3 requirement of
±
0.37ppm
(255 frame slips per 24 hours).
frequency
accuracy
of
Holdover
Mode
is
Two factors affect the accuracy of Holdover Mode.
One is drift on the Master Clock while in Holdover
Mode, drift on the Master Clock directly affects the
Holdover Mode accuracy. Note that the absolute
Master Clock (OSCi) accuracy does not affect
Holdover
accuracy,
only
accuracy while in Holdover. For example, a
±
32ppm
the
change
in
OSCi
MS2
MS1
Control
Mode
0
0
MANUAL
NORMAL
0
1
MANUAL
HOLDOVER
1
0
MANUAL
FREERUN
1
1
AUTO
State Machine Control
Table 3 - Operating Modes and States
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