MT9074 Mitel Networks Corporation, MT9074 Datasheet - Page 18
MT9074
Manufacturer Part Number
MT9074
Description
T1/E1/J1 Single Chip Transceiver
Manufacturer
Mitel Networks Corporation
Datasheet
1.MT9074.pdf
(122 pages)
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MT9074
position one of the four FASs of the following
submultiframe before it is transmitted (see Table 12).
The submultiframe is then transmitted and, at the far
end, the same process occurs. That is, a CRC-4
remainder
submultiframe. These bits are compared with the bits
received in position one of the four FASs of the next
received submultiframe. This process takes place in
both directions of transmission.
When more than 914 CRC-4 errors (out of a possible
1000) are counted in a one second interval, the
framing algorithm will force a search for a new basic
frame alignment. See Frame Algorithm section for
more details.
The result of the comparison of the received CRC-4
remainder with the locally generated remainder will
be transported to the far end by the E-bits.
Therefore, if E1 = 0, a CRC-4 error was discovered in
a submultiframe 1 received at the far end; and if E2 =
0, a CRC-4 error was discovered in a submultiframe
2 received at the far end. No submultiframe
sequence numbers or re-transmission capabilities
are supported with layer 1 PCM 30 protocol. See
ITU-T G.704 and G.706 for more details on the
operation of CRC-4 and E-bits.
18
AUTC
0
0
0
1
1
1
is
ARAI
0
1
1
0
1
1
Table 12 - Operation of AUTC, ARAI and TALM Control Bits (E1 Mode)
generated
TALM
X
X
0
1
0
1
for
Automatic CRC-interworking is activated. If no valid CRC MFAS is being
received, transmit RAI will flicker high with every reframe (8msec.), this cycle
will continue for 400 msec., then transmit RAI will be low continuously. The
device will stop searching for CRC MFAS, continue to transmit CRC-4
remainders, stop CRC-4 processing, indicate CRC-to-non-CRC operation
and transmit E-bits to be the same state as the TE control bit (page 01H,
address 16H).
Automatic CRC-interworking is activated. Transmit RAI is low continuously.
Automatic CRC-interworking is activated. Transmit RAI is high continuously.
Automatic CRC-interworking is de-activated. If no valid CRC MFAS is being
received, transmit RAI flickers high with every reframe (8 msec.), this cycle
continues for 400 msec, then transmit RAI becomes high continuously. The
device continues to search for CRC MFAS and transmit E-bits are the same
state as the TE control bit. When CRCSYN = 0, the CRC MFAS search is
terminated and the transmit RAI goes low.
Automatic CRC-interworking is de-activated. Transmit RAI is low
continuously.
Automatic CRC-interworking is de-activated. Transmit RAI is high
continuously.
each
received
There are two CRC multiframe alignment algorithm
options selected by the AUTC control bit (address
10H, page 01H). When AUTC is zero, automatic
CRC-to-non-CRC interworking is selected. When
AUTC is one and ARAI is low, if CRC-4 multiframe
alignment is not found in 400 msec, the transmit RAI
will be continuously high until CRC-4 multiframe
alignment is achieved.
The control bit for transmit E bits (TE, address 11H
of page 01H) will have the same function in both
states
synchronization is not achieved the state of the
transmit E-bits will be the same as the state of the
TE control bit. When CRC-4 synchronization is
achieved the transmit E-bits will function as per ITU-
T G.704. Table 12 outlines the operation of the
AUTC, ARAI and TALM control bits of the MT9074.
CAS Signalling Multiframing in E1 mode
The purpose of the signalling multiframing algorithm
is to provide a scheme that will allow the association
of a specific ABCD signalling nibble with the
appropriate PCM 30 channel. Time slot 16 is
reserved
Associated Signalling (CAS) information (i.e., ABCD
signalling bits for up to 30 channels). Refer to ITU-T
Description
of
for
AUTC.
the
communication
That
Advance Information
is,
when
of
Channel
CRC-4
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