THS7313 Datasheet, PDF(17/48 Page) Texas Instruments – 3-Channel Low Power SDTV Video Amplifier with I2C Control, 6-dB Gain, SAG Correction, 2:1 Input MUX, and Selectable Input Bias Modes

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THS7313 Datasheet, PDF (17/48 Pages) Texas Instruments – 3-Channel Low Power SDTV Video Amplifier with I2C Control, 6-dB Gain, SAG Correction, 2:1 Input MUX, and Selectable Input Bias Modes

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THS7313

www.ti.com

APPLICATION INFORMATION

SLOS483 â NOVEMBER 2005

The THS7313 is targeted for video output buffer applications. Although it can be used for numerous other

applications, the needs and requirements of the video signal are the most important design parameters of the

THS7313. Built on the complimentary silicon germanium (SiGe) BiCom-3 process, the THS7313 incorporates

many features not typically found in integrated video parts while consuming low power. Each channel

configuration is completely independent of the other channels. This allows for configurations for each channel to

be dictated by the end user and not device. The resulting highly flexible system contains the following features:

â¢ I2C Interface for easy interfacing to the system.

â¢ Single-supply 2.7-V to 5-V operation with low total quiescent current of 16.6 mA with 3.3-V supply and 18.9

mA with 5-V supply.

â¢ 2:1 input MUX.

â¢ Input configuration accepting dc, dc + 135 mV shift, ac bias, or ac sync-tip clamp selection.

â¢ 5th order low-pass filter for DAC reconstruction or ADC image rejection :

â 8-MHz for SDTV NTSC/PAL/SECAM, S-Video, component 480i/576i YâPâBPâR, and G'B'R' (R'G'B') signals.

â¢ Internal fixed gain of 2 V/V (6 dB) buffer that can drive 2 video lines with dc coupling, traditional ac coupling,

or SAG corrected ac coupling.

â¢ Shutdown mode which reduces quiescent current to as low as 0.1-ÂµA or a mute function that keeps the

THS7313 powered on, but does not allow a signal to pass through.

â¢ Signal flow-through configuration using a 20-pin TSSOP package that complies with the latest lead-free

(RoHS compatible) and green manufacturing requirements.

OPERATING VOLTAGE

The THS7313 is designed to operate from 2.7 V to 5 V over a -40Â°C to 85Â°C temperature range. The impact on

performance over the entire temperature range is negligible due to the implementation of thin film resistors and

low-temperature coefficient capacitors.

The power supply pins should have a 0.1-ÂµF to 0.01-ÂµF capacitor placed as close as possible to these pins.

Failure to do so may result in the THS7313 outputs ringing or oscillating. Additionally, a large capacitor, such as

22 ÂµF to 100 ÂµF, should be placed on the power supply line to minimize issues with 50/60 Hz line frequencies.

INPUT VOLTAGE

The THS7313 input range allows for an input signal range from Ground to (VS+â 1.4 V). But, due to the internal

fixed gain of 2 V/V (6 dB), the output is the limiting factor for the allowable linear input range. For example, with a

5-V supply, the linear input range is from GND to 3.6 V. But due to the gain, the linear output range limits the

allowable linear input range to be from GND to a maximum of 2.5 V.

INPUT OVERVOLTAGE PROTECTION

The THS7313 is built using a high-speed complementary bipolar and CMOS process. The internal junction

breakdown voltages are low for these very small geometry devices. These breakdowns are reflected in the

Absolute Maximum Ratings table. All input and output device pins are protected with internal ESD protection

diodes to the power supplies, as shown in Figure 46.

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