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SGM9136 Datasheet, PDF (9/13 Pages) SG Micro Corp – 4-Channel, Video Filter Driver
SGM9136
APPLICATION INFORMATION
Application Circuits
The SGM9136 video filter provides 6dB gain from input to
output. In addition, the input is slightly offset to optimize the
output driver performance. The offset is held to the minimum
required value to decrease the standing DC current into the
load.
The SGM9136 SD channel provides an internal clamp to
support AC-coupled input signals. If the input signal does not go
below ground, the input clamp does not operate. This allows
DAC outputs to directly drive the SGM9136 without an AC
coupling capacitor. When the input is AC-coupled, the clamp
sets the sync tip (or lowest voltage) just below ground. The
worst-case sync tip compression due to the clamp cannot
exceed 7mV. The input level set by the clamp, combined with
the internal DC offset, keeps the output within its acceptable
range.
For symmetric signals like Chroma, U, V, Pb and Pr, the
average DC bias is fairly constant and the inputs can be
AC-coupled. DAC outputs can also drive these same signals
without the AC coupling capacitor.
I/O Configurations
For an AC-coupled DAC drive with AC-coupled outputs, use the
configuration in Figure 1.
DVD or
STB
SoC
DAC
Output
0V - 1.4V
0.1μF
LCVF
Clamp/Bias
Active
75Ω 220μF
Figure 1. AC-Coupled Inputs and Outputs
Alternatively, if the DAC’s average DC output level causes the
signal to exceed the range from 0V to 1.4V, it can be
AC-coupled as shown in Figure 2.
DVD or
STB
SoC
DAC
Output
0V - 1.4V
LCVF
75Ω
Clamp/Bias
0.1µF
Active
4-Channel, Video Filter Driver
for SD/HD (1080i)/HD (1080p)
For a DC-coupled DAC drive with DC-coupled outputs, use the
configuration in Figure 3.
DVD or
STB
SoC
DAC
Output
0V - 1.4V
LCVF
75Ω
Clamp/Bias
Inactive
Figure 3. DC-Coupled Inputs and Outputs
NOTE: The video tilt or line time distortion is dominated by the
AC coupling capacitor. The value may need to be increased
beyond 220μF to obtain satisfactory operation in some
applications.
Power Dissipation
The SGM9136 output drive configuration must be considered
when calculating overall power dissipation. Care must be taken
not to exceed the maximum die junction temperature. The
following equations can be used to calculate the power
dissipation and internal temperature rise.
TJ = TA + PD • θJA
(1)
where:
PD = PCH1 + PCH2 + PCH3
(2)
PCHX = VCC • ICH - (VO2/RL)
(3)
where:
VO = 2VIN + 0.55V
(4)
ICH = (ICC/3) + (VO/RL)
(5)
VIN = RMS value of input signal
ICC = 58mA (1080i)
VCC = 5.0V
RL = channel load resistance
Board layout can also affect thermal characteristics. Refer to
the Layout Considerations section for details.
The SGM9136 is specified to operate with output currents
typically less than 50mA, more than sufficient for a dual (75Ω)
video load. Internal amplifiers are current limited to a maximum
of 80mA and should withstand brief-duration short-circuit
conditions. This capability is not guaranteed.
Figure 2. AC-Coupled Inputs, DC-Coupled Outputs
SG Micro Corp
9
www.sg-micro.com