AM79C982 查看數據表(PDF) - Advanced Micro Devices
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AM79C982 Datasheet PDF : 26 Pages
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PRELIMINARY
AMD
that port’s transmitter has been inactive for more than 8
to 17 ms. Conversely, if a TP port does not receive any
data packets or Link Test pulses for more than 65 to
132 ms and the Link Test function is enabled for that
port then that port will enter link fail state. A port in link
fail state will be disabled by the bIMR chip (repeater
transmit and receive functions disabled) until it receives
either four consecutive Link Test pulses or a data pack-
et. The Link Test receive function itself can be disabled
via the bIMR chip management port on a port-by-port
basis to allow the bIMR device to interoperate with
pre-10BASE-T twisted pair networks that do not imple-
ment the Link Test function. This interoperability is pos-
sible because the bIMR device will not allow the TP port
to enter link fail state, even if no Link Test pulses or data
packets are being received. Note however that the bIMR
chip will always transmit Link Test pulses to all TP ports
regardless of whether or not the port is enabled, parti-
tioned, in link fail state, or has its Link Test receive func-
tion disabled.
Polarity Reversal
The TP ports have the optional (programmable) ability
to invert (correct) the polarity of the received data if the
TP port senses that the received data packet waveform
polarity is reversed due to a wiring error. This receive
circuitry polarity correction allows subsequent packets
to be repeated with correct polarity. This function is exe-
cuted once following reset or link fail, and has a pro-
grammable enable/disable option on a port-by-port
basis. This function is disabled upon reset and can be
enabled via the bIMR chip Management Port.
Reset
The bIMR device enters reset state when the RST pin is
driven LOW. After the initial application of power, the
RST pin must be held LOW for a minimum of 150 µs
(3000 X1 clock cycles). If the RST pin is subsequently
asserted while power is maintained to the bIMR device,
a reset duration of only 4 µs is required. The bIMR chip
continues to be in the reset state for 10 X1 clocks
(0.5 µs) following the rising edge of RST. During reset,
the output signals are placed in their inactive states.
This means that all analog signals are placed in their idle
states, bidirectional signals are not driven, active LOW
signals are driven HIGH, and all active HIGH signals
and the STR pin are driven LOW.
An internal circuit ensures that a minimum reset pulse is
generated for all internal circuits. For a RST input with a
slow rising edge, the input buffer threshold may be
crossed several times due to ripple on the input
waveform.
In a multiple bIMR chip repeater the RST signal should
be applied simultaneously to all bIMR devices and
should be synchronized to the external X1 clock. Reset
synchronization is also required when accessing the
PAM (Port Activity Monitor).
The SI signal should be held HIGH for at least 500 ns fol-
lowing the rising edge of RST.
Table 1 summarizes the state of the bIMR chip following
reset.
Table 1. bIMR Chip After Reset
Function
Active LOW outputs
Active HIGH outputs
SO Output
DAT, JAM
STR
Transmitters (TP and AUI)
Receivers (TP and AUI)
AUI Partitioning/Reconnection Algorithm
TP Port Partitioning/Reconnection Algorithm
Link Test Function for TP Ports
Automatic Receiver Polarity Reversal Function
State After Reset
HIGH
LOW
HIGH
HI-IMPEDANCE
LOW
IDLE
ENABLED
STANDARD ALGORITHM
STANDARD ALGORITHM
ENABLED, TP PORTS IN LINK FAIL
DISABLED
Pull Up/Pull Down
No
No
No
Either
No
No
Terminated
N/A
N/A
N/A
N/A
Am79C982
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