THS7364_10 Datasheet, PDF(38/47 Page) Texas Instruments – 6-Channel Video Amplifier with 3 SD and 3 Full-HD Filters with 6-dB Gain

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THS7364_10 Datasheet, PDF (38/47 Pages) Texas Instruments – 6-Channel Video Amplifier with 3 SD and 3 Full-HD Filters with 6-dB Gain

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THS7364

SBOS530 â AUGUST 2010

EVALUATION MODULE

www.ti.com

To evaluate the THS7364, an evaluation module

(EVM) is available. The THS7364EVM allows for

testing the THS7364 in many different configurations.

Inputs and outputs include BNC connectors and RCA

connectors commonly found in video systems, along

with 75-â¦ input termination resistors, 75-â¦ series

source termination resistors, and 75-â¦ characteristic

impedance traces. Several unpopulated component

pads are found on the EVM to allow for different input

and output configurations as dictated by the user.

This EVM is designed to be used with a single supply

from 2.6 V up to 5 V.

The EVM default input configuration sets all channels

for dc input coupling. The input signal must be within

0 V to approximately 1.4 V for proper operation.

Failure to be within this range saturates and/or clips

the output signal. If the input range is beyond this, if

the signal voltage is unknown, or if coming from a

current sink DAC, then ac input configuration is

desired. This option is easily accomplished with the

EVM by simply replacing the Z1 through Z6 0-â¦

resistors with 0.1-mF capacitors.

For an ac-coupled input and sync-tip clamp (STC)

functionality commonly used for CVBS, s-video Y',

component Y' signals, and R'G'B' signals, no other

changes are needed. However, if a bias voltage is

needed after the input capacitor which is commonly

needed for s-video C', component P'B, and P'R, then a

pull-up resistor should be added to the signal on the

EVM. This configuration is easily achieved by simply

adding a resistor to any of the following resistor pads;

RX7 to RX12. A common value to use is 3.3 Mâ¦.

Note that even signals with embedded sync can also

use bias mode if desired.

The EVM default output configuration sets all

channels for ac output coupling. The 470-mF and

0.1-mF capacitors work well for most ac-coupled

systems. However, if dc-coupled output is desired,

then replacing the 0.1-mF capacitors (C20, C22, C24,

C26, C28, and/or C30) with 0-â¦ resistors works well.

Removing the 470-mF capacitors is optional, but

removing them from the EVM eliminates a few

picofarads of stray capacitance on each signal path

which may be desirable.

The THS7364 incorporates an easy method to

configure the bypass modes and the disable modes.

The use of JP4 controls the SD channels disable

feature; JP6 controls the FHD channels disable

feature; JP3 controls the SD channels filter/bypass

mode; and JP5 controls the FHD channels

filter/bypass mode.

Connection of JP4 and JP6 to GND applies 0 V to the

disable pins and the THS7364 operates normally.

Moving JP4 to +VS causes the THS7364 SD

channels to be in disable mode, while moving JP6 to

+VS causes the THS7364 FHD channels to be in

disable mode.

Connection of JP3 to GND places the THS7364 SD

channels in filter mode while moving JP3 to +VS

places the THS7364 SD channels in bypass mode.

Connection of JP5 to GND places the THS7364 FHD

channels in filter mode while moving JP5 to +VS

places the THS7364 FHD channels in bypass mode.

Figure 83 shows the THS7364EVM schematic.

Figure 84 and Figure 85 illustrate the two layers of

the EVM PCB, incorporating standard high-speed

layout practices. Table 5 lists the bill of materials as

the board comes supplied from Texas Instruments.

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