LMH0395SQX/NOPB National Semiconductor, LMH0395SQX/NOPB Datasheet - Page 9
LMH0395SQX/NOPB
Manufacturer Part Number
LMH0395SQX/NOPB
Description
IC EQUALIZER DUAL CABLE 24-LLP
Manufacturer
National Semiconductor
Datasheet
1.LMH0395SQXNOPB.pdf
(20 pages)
Specifications of LMH0395SQX/NOPB
Applications
Amplifier
Interface
SPI Serial
Voltage - Supply
2.5V
Package / Case
*
Mounting Type
*
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
LMH0395SQX/NOPB
Manufacturer:
TI/德州仪器
Quantity:
20 000
CARRIER DETECT (CD) AND MUTE
Carrier detect CD indicates if a valid signal is present at the
LMH0395 input. This signal is logical OR operation of internal
energy detector and MUTE
ergy detector detects energy across different data rates. If
MUTE
accordingly. CD provides a high voltage when no signal is
present at the LMH0395 input. CD is low when a valid input
signal is detected.
MUTE can be used to manually mute or enable the output
drivers. Applying a high input to MUTE will mute the LMH0395
outputs by forcing the output to a logic 1. Applying a low input
will force the outputs to be active.
In pin mode, CD and MUTE may be tied together to automat-
ically mute the output when no input signal is present.
AUTO SLEEP
The auto sleep mode allows the LMH0395 to power down
when no input signal is detected. If the AUTO SLEEP pin is
set high, the LMH0395 goes into a deep power save mode
when no signal is detected. The device powers on again once
an input signal is detected. If the AUTO SLEEP pin is set low,
the LMH0395 will always be on and will not enter power save
mode. The auto sleep functionality can be turned off by setting
AUTO SLEEP low or tying this pin to ground. An additional
auto sleep setting available in SPI mode can be used to force
the equalizer to power down regardless of whether there is
an input signal or not. Auto sleep has precedence over mute
and bypass modes.
In auto sleep mode, the time to power down the equalizer
when the input signal is removed is less than 200 µs and
should not have any impact on the system timing require-
ments. The device will wake up automatically once an input
signal is detected, and the delay between signal detection and
full functionality of the equalizer is negligible (about 5 ms). The
overall system will be limited only by the settling time constant
of the equalizer adaptation loop.
INPUT INTERFACING
The LMH0395 accepts either differential or single-ended in-
put. The input must be AC coupled. The
(Pin Mode)
gle-ended input. The unused input must be properly termi-
nated as shown.
The LMH0395 can be optimized for different launch ampli-
tudes via the SPI (see
TION
The LMH0395 correctly handles equalizer pathological sig-
nals for standard definition and high definition serial digital
video, as described in SMPTE RP 178 and RP 198, respec-
tively.
OUTPUT INTERFACING
The LMH0395 dual output differential pairs, SDO0, SDO0,
SDO1, and SDO1 are internally terminated 100Ω LVDS out-
in the
REF
is used, the carrier detect threshold will be altered
diagram shows the typical configuration for a sin-
SPI Register Access
LAUNCH AMPLITUDE OPTIMIZA-
REF
setting (if used). Internal en-
section).
Typical Application
9
puts. These outputs can be DC coupled to most common
differential receivers.
The default output common mode voltage (V
output common mode voltage may be adjusted via the SPI in
200 mV increments, from 0.8V to 1.2V (see
ER ADJUSTMENTS AND DE-EMPHASIS SETTING
SPI Register Access
mode is supply referenced, the common mode voltage is
about 1.35V (for 700 mV
output common mode voltage offers flexibility for interfacing
to many types of receivers.
The default differential output swing (V
The differential output swing may be adjusted via the SPI.
Valid options are 400, 600, 700, or 800 mV
DRIVER ADJUSTMENTS AND DE-EMPHASIS SETTING
the
The LMH0395 output should be DC coupled to the input of
the receiving device as long as the common mode ranges of
both devices are compatible. 100Ω differential transmission
lines should be used to connect between the LMH0395 out-
puts and the input of the receiving device where possible.
Figure 5
tween the LMH0395 and LMH0346 SDI reclocker. All that is
required is the 100Ω differential termination as shown. The
resistor should be placed as close as possible to the
LMH0346 input. If desired, this network may be terminated
with two 50Ω resistors and a center tap capacitor to ground
in place of the signal 100Ω resistor.
Figure 6
tween the LMH0395 and LMH0356 SDI reclocker. The
LMH0356 inputs have 50Ω internal terminations (100Ω dif-
ferential) to terminate the transmission line, so no additional
components are required.
The LMH0395 may be AC coupled to the receiving device
when necessary. For example, the LMH0395 outputs are not
strictly compatible with 2.5V CML and thus should not be
connected via 50Ω resistors to 2.5V. If the input common
mode range of the receiving device is not compatible with the
output common mode range of the LMH0395, then AC cou-
pling is required. Following the AC coupling capacitors, the
signal may have to be biased at the input of the receiving de-
vice.
The LMH0395 output drivers are equipped with pro-
grammable output de-emphasis to minimize inter-symbol in-
terference caused by the loss dispersion from driving signals
across PCB traces (see
AND DE-EMPHASIS SETTING
section). De-emphasis works with all combinations of output
common mode voltage and output voltage swing settings to
support DC coupling to the receiving device.
SPI Register Access
shows an example of a DC-coupled interface be-
shows an example of a DC-coupled interface be-
section). When the output common
P-P
OUTPUT DRIVER ADJUSTMENTS
section).
differential swing). This adjustable
in the
SPI Register Access
SSP-P
P-P
OUTPUT DRIV-
OS
) is 700 mV
(see
) is 1.2V. The
www.national.com
OUTPUT
in the
P-P
in
.
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