AD8091_05 Datasheet, PDF(15/20 Page) Analog Devices – Low Cost, High Speed Rail-to-Rail Amplifiers

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AD8091_05 Datasheet, PDF (15/20 Pages) Analog Devices – Low Cost, High Speed Rail-to-Rail Amplifiers

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50pF

1kâ¦

2kâ¦

VIN 3kâ¦ 2

1 2kâ¦ 6

50pF

7 2kâ¦ 2

AD8092

VOUT

AD8092

AD8091

Figure 33. 2 MHz Biquad Band-Pass Filter

The frequency response of the circuit is shown in Figure 34.

â10

â20

â30

â40

10k

100k

10M

100M

FREQUENCY (Hz)

Figure 34. Frequency Response of 2 MHz Band-Pass Biquad Filter

SYNC STRIPPER

Synchronizing pulses are sometimes carried on video signals so

as not to require a separate channel to carry the synchronizing

information. However, for some functions, such as A/D

conversion, it is not desirable to have the sync pulses on the

video signal. These pulses reduce the dynamic range of the

video signal and do not provide any useful information for such

a function.

A sync stripper removes the synchronizing pulses from a video

signal while passing all the useful video information. Figure 35

shows a practical single-supply circuit that uses only a single

AD8091. It is capable of directly driving a reverse terminated

video line.

VIDEO WITH SYNC

AD8091/AD8092

VIDEO WITHOUT SYNC

VBLANK

+0.4V

GROUND

3V OR 5V

0.1ÂµF

10ÂµF

VIN

TO A/D

AD8091 6

100â¦

1kâ¦

+0.8V

(OR 2 Ã VBLANK)

Figure 35. Sync Stripper

The video signal plus sync is applied to the noninverting input

with the proper termination. The amplifier gain is set equal to 2

via the two 1 kâ¦ resistors in the feedback circuit. A bias voltage

must be applied to R1 for the input signal to have the sync

pulses stripped at the proper level.

The blanking level of the input video pulse is the desired place

to remove the sync information. The amplifier multiplies this

level by 2. This level must be at ground at the output in order

for the sync stripping action to take place. Because the gain of

the amplifier from the input of R1 to the output is â1, a voltage

equal to 2 Ã VBLANK must be applied to make the blanking level

come out at ground.

SINGLE-SUPPLY COMPOSITE VIDEO LINE DRIVER

Many composite video signals have their blanking level at

ground and have video information that is both positive and

negative. Such signals require dual-supply amplifiers to pass

them. However, by ac level-shifting, a single-supply amplifier

can be used to pass these signals. The following complications

may arise from such techniques.

Signals of bounded peak-to-peak amplitude that vary in duty

cycle require larger dynamic swing capacity than their

(bounded) peak-to-peak amplitude after they are ac-coupled.

As a worst case, the dynamic signal swing approaches twice the

peak-to-peak value. One of two conditions that define the

maximum dynamic swing requirements is a signal that is

mostly low but goes high with a duty cycle that is a small

fraction of a percent. The opposite condition defines the second

condition.

The worst case of composite video is not quite this demanding.

One bounding condition is a signal that is mostly black for an

entire frame but has a white (full amplitude) minimum width

spike at least once in a frame.

Rev. B | Page 15 of 20

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