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THS7316_17 Datasheet, PDF (20/31 Pages) Texas Instruments – 3-Channel HDTV Video Amplifier With 5th-Order Filters and 6-dB Gain
THS7316
SLOS521A – MARCH 2007 – REVISED JANUARY 2008
www.ti.com
BENEFITS OVER PASSIVE FILTERING
Two key benefits of using an integrated filter system, such as the THS7316, over a passive system is PCB area
and filter variations. The small SOIC-8 package (3-video channels) is much smaller over a passive RLC network,
especially a 5-pole passive network. Additionally, inductors have at best ±10% tolerances (normally ±15% to
±20% is common) and capacitors typically have ±10% tolerances. Using a Monte Carlo analysis shows that the
filter corner frequency (–3 dB), flatness (–1 dB), Q factor (or peaking), and channel-to-channel delay has wide
variations. This can lead to potential performance and quality issues in mass-production environments. The
THS7316 solves most of these problems by using the corner frequency as essentially the only variable.
One concern about an active filter in an integrated circuit is the variation of the filter characteristics when the
ambient temperature and the subsequent die temperature changes. To minimize temperature effects, the
THS7316 uses low temperature coefficient resistors and high quality – low temperature coefficient capacitors
found in the BiCom-3 process. The filters have been specified by design to account for process variations and
temperature variations to maintain proper filter characteristics. This maintains a low channel-to-channel time
delay which is required for proper video signal performance.
Another benefit of a THS7316 over a passive RLC filter are the input and output impedances. The input
impedance presented to the DAC varies significantly with a passive network and may cause voltage variations
over frequency. The THS7316 input impedance is 800 kΩ and only the 2-pF input capacitance plus the PCB
trace capacitance impacting the input impedance. As such, the voltage variation appearing at the DAC output is
better controlled with the THS7316.
On the output side of the filter, a passive filter will again have a impedance variation over frequency. The
THS7316 is an op-amp which approximates an ideal voltage source. A voltage source is desirable because the
output impedance is very low and can source and sink current. To properly match the transmission line
characteristic impedance of a video line, a 75-Ω series resistor is placed on the output. To minimize reflections
and to maintain a good return loss, this output impedance must maintain a 75-Ω impedance. A passive filter
impedance variation is not specified while the THS7316 has approximately 0.5-Ω of output impedance at
10 MHz. Thus, the system is matched better with a THS7316 compared to a passive filter.
One last benefit of the THS7316 over a passive filter is power dissipation. A DAC driving a video line must be
able to drive a 37.5-Ω load - the receiver 75-Ω resistor and the 75-Ω impedance matching resistor next to the
DAC to maintain the source impedance requirement. This forces the DAC to drive at least 1.25-V peak (100%
Saturation CVBS) / 37.5 Ω = 33.3 mA. A DAC is a current steering element and this amount of current flows
internally to the DAC even if the output is 0-V. Thus, power dissipation in the DAC may be high - especially when
6-channels are being driven. Using the THS7316, with a high input impedance and the capability to drive up to
2-video lines per channel, can reduce the DAC power dissipation significantly. This is because the resistance the
DAC is driving can be substantially increased. It is common to set this in a DAC by a current setting resistor on
the DAC. Thus, the resistance can be 300-Ω or more - substantially reducing the current drive demands from the
DAC and saving substantial amount of power. For example, a 3.3-V 6-Channel DAC dissipates 660 mW just for
the steering current capability (6 ch x 33.3 mA x 3.3 V) if it needs to drive 37.5-Ω load. With a 300-Ω load, the
DAC power dissipation due to current steering current would only be 82.5 mW (6 ch X 4.16 mA X 3.3 V).
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