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參數(shù)資料
| 型號(hào): | MT8976 |
| 廠商: | Mitel Networks Corporation |
| 元件分類: | 通信及網(wǎng)絡(luò) |
| 英文描述: | Ultraframer DS3/E3/DS2/E2/DS1/E1/DS0 |
| 中文描述: | Ultraframer DS3/E3/DS2/E2/DS1/E1/DS0 |
| 文件頁數(shù): | 7/30頁 |
| 文件大?。?/td> | 194K |
| 代理商: | MT8976 |
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ISO-CMOS
MT8976
4-35
Table 1. Master Control Word 1 (Channel 15, CSTi0)
to the CRC received in the next multiframe. The
device will not declare itself to be in synchronization
unless a valid framing pattern in the S-bit is detected
and a correct CRC is received. The CRC check in
this case provides protection against false framing.
The CRC check can be turned off by setting bit 1 in
Master Control Word 2.
Bit
Name
Description
7
Debounce
When set the received A, B, C and D signalling bits are reported directly in the per channel
status words output at CSTo. When clear, the signalling bits are debounced for 6 to 9 ms
before they are placed on CSTo.
Transparent Zero Code Suppression.
When this bit is set, no zero code suppression is
implemented.
Binary Eight Zero Suppression.
When this bit is set, B8ZS zero code suppression is
enabled. When clear, bit 7 in data channels containing all zeros is forced high before being
transmitted on the DS1 side. This bit is inactive if the TSPZCS bit is set.
8 kHz Output Select.
When set, the E8Ko pin is held high. When clear, the E8Ko
generates an 8 kHz output derived from the E1.5i or C1.5 clock (see Pin Description for
E8Ko).
External Control Pin.
When set, the XCtl pin is held high. When clear, XCtl is held low.
ESF Yellow Alarm.
Valid only in ESF mode. When set, a sequence of eight 1’s followed
by eight 0’s is sent in the FDL bit positions. When clear, the FDL bit contains data input at
the TxFDL pin.
When this bit is set, robbed bit signalling is disabled on all DS0 transmit channels. When
clear, A, B, C and D signalling bit insertion in bit 8 for all DS0 transmit channels in every 6
th
frame is enabled.
Yellow Alarm.
When set, bit 2 of all DS1 channels is set low. When clear, bit 2 operates
normally.
6
TSPZCS
5
B8ZS
4
8KHSel
3
2
XCtl
ESFYLW
1
Robbed bit
0
YLALR
The device can be forced to resynchronize itself. If
Bit 3 in Master Control Word 2 is set for one frame
and then subsequently reset, the device will start to
search for a new frame position. The decision to
reframe is made by the user’s system processor on
the basis of the status conditions detected in the
received master status words. This may include
consideration of the number of errors in the received
CRC in conjunction with an indication of the
presence of a mimic. When the device attains
synchronization the mimic bit in Master Status Word
1 is set if the device found another possible
candidate when it was searching for the framing
pattern.
Note that the device will resynchronize automatically
if the errors in the terminal framing pattern (F
T
or
FPS) exceed the threshold set with bit 0 in Master
Control Word 2.
Standard D3/D4 framing is enabled when bit 4 of
Master Control Word 2 is reset (logic 0). In this
mode the device searches for and inserts the
framing pattern shown in Table 4. This mode only
supports AB bit signalling, and does not contain a
CRC check.
The CRC/MIMIC bit in Master Control Word 2, when
set high, allows the device to synchronize in the
presence of a mimic. If this bit is reset, the device will
not synchronize in the presence of a mimic (Also,
refer to section on Framing algorithm).
In the D3/D4 mode the device can also be made
compatible with SLC-96 by setting bit two of Master
Control Word 2. This allows the user to insert and
extract the signalling framing pattern on the DS1 bit
stream using the FDL input and output pins. The
user must format this 4 kbits of information externally
to meet all of the requirements of the SLC-96
specification (see Table 5). The device multiplexes
and demultiplexes this information into the proper
position. This mode of operation can also be used for
any other application that uses all or part of the
signalling framing pattern. As long as the serial
stream clocked into the TxFDL contains two proper
sets of consecutive synchronization bits (as shown
in Table 5 for frames 1 to 24), the device will be able
to insert and extract the A, B signalling bits. The
TxSF pin
should be held high in this mode.
Superframe boundaries cannot be defined by a
pulse on this input. The RxSF output functions
normally and indicates the superframe boundaries
based on the synchronization pattern in the F
S
received bit position.
Zero Code Suppression
The combination of bits 5 and 6 in Master Control
Word 1 allow one of three zero code suppression
相關(guān)PDF資料 |
PDF描述 |
|---|---|
| MT8976 | Ultraframer DS3/E3/DS2/E2/DS1/E1/DS0 |
| MT8976AC | Ultraframer DS3/E3/DS2/E2/DS1/E1/DS0 |
| MT8976AE | Ultraframer DS3/E3/DS2/E2/DS1/E1/DS0 |
| MT8976AP | Ultraframer DS3/E3/DS2/E2/DS1/E1/DS0 |
| MT8977 | Ultraframer DS3/E3/DS2/E2/DS1/E1/DS0 |
相關(guān)代理商/技術(shù)參數(shù) |
參數(shù)描述 |
|---|---|
| MT8976AC | 制造商:MITEL 制造商全稱:Mitel Networks Corporation 功能描述:ISO-CMOS ST-BUS⑩ FAMILY T1/ESF Framer Circuit |
| MT8976AE | 制造商:MITEL 制造商全稱:Mitel Networks Corporation 功能描述:ISO-CMOS ST-BUS⑩ FAMILY T1/ESF Framer Circuit |
| MT8976AE1 | 制造商:Zarlink Semiconductor Inc 功能描述: |
| MT8976AP | 制造商:MITEL 功能描述: |
| MT8976AP1 | 制造商:Rochester Electronics LLC 功能描述: 制造商:Zarlink Semiconductor Inc 功能描述: 制造商:ZARLINK 功能描述: |
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