AM7968 AMD [Advanced Micro Devices], AM7968 Datasheet - Page 85
AM7968
Manufacturer Part Number
AM7968
Description
TAXIchip Integrated Circuits(Transparent Asynchronous Xmitter-Receiver Interface)
Manufacturer
AMD [Advanced Micro Devices]
Datasheet
1.AM7968.pdf
(127 pages)
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Figure 7-6
The Data Out Lines
When a Receiver sees the Sync symbol it sends the data byte it just received from its
Input Latch to its Decoder Latch, and then the receiver lowers its IGM. One more clock
cycle is required for the data to go to the Output Latch. At this point DSTRB is raised. In
this way all data bytes are output simultaneously from all receivers, two clock cycles
after the first Sync (or two clock cycles after a LOW CNB). The DSTRBs of all the
receivers rise simultaneously as well.
The VLTN (Violation) Pin
In Cascade mode the VLTN pin acts exactly like a Data Out line. The timings are exactly
the same. Violations do not change the output of the IGM pin. i.e., a Receiver that gets a
VLTN will still raise it’s IGM signal as if it received a valid data byte.
7.3 Auto-Repeat Configuration
7.3.1 Receiver Connections in Auto-Repeat Configuration
In Auto-repeat Configuration the IGM of the last Receiver on the line is inverted and tied
to the CNB of the Primary Receiver. This connection eliminates the need to send a Sync
between each Data Word.
In a 3-Receiver cascade system, IGM3 is inverted and tied to CNB1. When the IGM of
the last Receiver goes high, CNB1 goes LOW.
CNB1 going LOW ripples through the chain pulling each IGM LOW (t46 ns) until finally
the last IGM goes LOW again, pulling CNB1 HIGH resetting RX1 to receive new data.
In Figures 7-6 and 7-7, as each Receiver decodes its data byte, it raises its IGM and
thus the next Receiver’s CNB.
TAXI Receiver—Cascaded in Auto-Repeat
CNB
CSTRB
DSTRB
SERIN+
IGM
TAXIchip Integrated Circuits Technical Manual
SERIN–
CNB
CSTRB
DSTRB
IGM
CNB
CSTRB
DSTRB
IGM
CNB
CSTRB
DSTRB
12330E-28
AMD
IGM
81
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