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AD8192 Datasheet, PDF (13/28 Pages) Analog Devices – 2:1 HDMI/DVI Switch with Equalization and DDC/CEC Buffers
AD8192
to 10 mA by programming the TX_OCL bit of the transmitter
settings register. The high speed outputs must be disabled if
there are no output termination resistors present in the system.
The output equalizer (pre-emphasis) can be manually confi-
gured to provide one of four different levels of high frequency
boost. The specific boost level is selected by programming the
TX_PE bits of the transmitter settings register. No specific cable
length is suggested for a particular pre-emphasis setting because
cable performance varies widely among manufacturers.
SWITCHING MODE
The AD8192 is a 2:1 HDMI/DVI source switch. The user can
select which high speed TMDS input is routed to the output by
programming the HS_CH bit of the high speed modes register and
which low speed DDC input/output is routed to the DDC common
input/output by programming the AUX_CH bit of the auxiliary
device register.
PRE-EMPHASIS
The pre-emphasized TMDS outputs precompensate the trans-
mitted signal to account for losses in systems with long cable
runs. These long cable runs selectively attenuate the high frequency
energy of the signal, leading to degraded transition times and
eye closure. Similar to a receive equalizer, the goal of the pre-
emphasis filter is to boost the high frequency energy in the signal.
However, unlike the receive equalizer, the pre-emphasis filter is
applied before the channel, thus predistorting the transmitted
signal to account for the loss of the channel. The series connection
of the pre-emphasis filter and the channel results in a flatter
frequency response than that of the channel, thereby leading to
improved high frequency energy, improved transition times,
and improved eye opening on the far end of the channel. Using
a pre-emphasis filter for compensating channel losses allows for
longer cable runs with or without a receive equalizer on the far
end of the channel. When there is no receive equalizer on the
far end of the channel, the pre-emphasis filter should allow
longer cable runs than is acceptable with no pre-emphasis. In
the case of both a pre-emphasis filter on the near end and a
receive equalizer on the far end of the channel, the allowable
cable run should be longer than either compensation could
achieve alone. The pulse response of a pre-emphasized wave-
form is shown in Figure 27. The output voltage levels and
symbol descriptions are listed in Table 7 and Table 8, respectively.
PRE-EMPHASIS OFF
VTTO
VOCM
VH
VOSE-DC
VL
PRE-EMPHASIS ON
VTTO
VH
VOCM
VOSE-DC VOSE-BOOST
VL
<TBIT
Figure 27. Pre-Emphasis Pulse Response
Table 7. Output Voltage Levels
PE Setting
0
1
2
3
0
1
2
3
OCL Setting
0
0
0
0
1
1
1
1
Boost (dB)
0
2
4
6
0
2
4
6
IT (mA)
10
12.5
15
20
20
25
30
40
VOSE-DC (mV p-p)
250
250
250
250
500
500
500
500
VOSE-BOOST (mV p-p)
250
312.5
375
500
500
625
750
1000
VOCM (V)
3.175
3.144
3.133
3.050
3.050
2.988
2.925
2.8
DC-Coupled
VH (V) VL (V)
3.3
3.050
3.3
2.988
3.3
2.925
3.3
2.8
3.3
2.8
3.3
2.675
3.3
2.550
3.3
2.3
Table 8. Symbol Definitions
Symbol
Formula
VOSE-DC
IT
× 25 Ω 1
PE =0
VOSE-BOOST
VOCM (DC-Coupled)
VOCM (AC-Coupled)
VH
VL
IT × 25 Ω1
VTTO − IT × 25Ω 1
2
VTTO − IT × 50 Ω
2
VOCM + VOSE-BOOST/2
VOCM − VOSE-BOOST/2
Definition
Single-ended output voltage swing after settling
Boosted single-ended output voltage swing
Common-mode voltage when the output is dc-coupled
Common-mode voltage when the output is ac-coupled
High single-ended output voltage excursion
Low single-ended output voltage excursion
1 The 25 Ω resistance in the equation is the parallel combination of the on-chip 50 Ω termination resistor and the external 50 Ω termination resistor.
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