Preliminary Data Sheet
May 2001
TMXF28155/51 Super Mapper
155/51 Mbits/s SONET/SDH x28/x21 DS1/E1
373
Agere Systems Inc.
17 TMUX Functional Description
(continued)
The TOAC channel consists of the following signals:
I
A clock signal sourced by the device pin, RTOACCLK (external output pin AD1). The clock frequency depends on
the values of TMUX_RTOAC_D13MODE and TMUX_RTOAC_D412MODE. See
Table 522
below.
I
A data signal out of RTOACDATA (external output pin AD3). The data rate and the values transmitted depend on
the values of TMUX_RTOAC_D13MODE and TMUX_RTOAC_D412MODE. See
Table 522
below.
I
An 8 kHz synchronization signal, out to output pin, RTOACSYNC (external output pin AA5). The sync signal is
normally low. During the last clock period of each frame coincident with the least significant bit of the last byte
(the eighty-first byte for all TOH modes), the sync signal is driven high.
Receive TOAC
DCC1
—
DCC3 Mode.
In this mode, DCC bytes 1 to 3 are transmitted serially on the data pin. The
clock rate is 192 KHz. The data bytes are transmitted MSB first, and the data bytes are driven out in sequential
order: DCC1, DCC2, and DCC3. The data signal is partitioned into frames of 3 bytes with a repetition rate of 8 kHz.
Receive TOAC DCC4
—
DCC12 Mode.
In this mode, DCC bytes 4
—
12 are transmitted serially on the data output.
The clock rate is 576 KHz. The data bytes are transmitted MSB first, and the data bytes are driven out in sequential
order: DCC4, DCC5, DCC6, DCC7, DCC8, DCC9, DCC10, DCC11, and DCC12. The data signal is partitioned into
frames of 9 bytes. The frame repetition rate is 8 kHz.
Receive TOAC
Full TOH Access Mode.
In this mode, the data signal is partitioned into frames of 81 bytes. The
frame repetition rate is 8 kHz. Each byte consists of 8 bits that are transmitted/received most significant bit first.
The MSB of the first byte of each frame contains an odd/even parity bit over the 648 bits of the previous frame. The
remaining 7 bits of this byte are not specified.
Bytes shown in
Table 523
below summarize the access capabilities of the receive TAOC in full access mode. The
transport overhead bytes shown in this table are always dropped by the receive side. There is programmability on
the transmit side regarding the insertion of these bytes. Bytes indicated in bold type are not specified in the stan-
dard, but are available on the receive TOAC data signal.
Table 522. Receive TOAC Modes
TOAC Mode
TMUX_RTOAC_D13MODE
Value
1
0
0
TMUX_RTOAC_D412MODE
Value
X
1
0
Number of Data
Bytes per Frame
3
9
81
Clock Rate
DCC1
—
DCC3
DCC4
—
DCC12
Full TOH Mode
192 KHz
576 KHz
5.184 MHz
Table 523. Transport Overhead Byte Access
—
Receive Direction
OH Parity
B1
D1
H1-1
B2-1
D4
D7
D10
S1
A1-2
B1-2
D1-2
H1-2
B2-2
D4-2
D7-2
D10-2
Z1-2
A1-3
B1-3
D1-3
H1-3
B2-3
D4-3
D7-3
D10-3
Z1-3
A2-1
E1
D2
H2
K1
D5
D8
D11
Z2-1
A2-2
E1-2
D2-2
H2-2
K1-2
D5-2
D8-2
D11-2
Z2-2
A2-3
E1-3
D2-3
H2-3
K1-3
D5-3
D8-3
D11-3
M1
J0
F1
D3
H3
K2
D6
D9
D12
E2
Z0-2
F1-2
D3-2
H3-2
K2-2
D6-2
D9-2
D12-2
E2-2
Z0-3
F1-3
D3-3
H3-3
K2-3
D6-3
D9-3
D12-3
E2-3