THS4221D Datasheet, PDF(17/40 Page) Texas Instruments – LOW-DISTORTION, HIGH-SPEED, RAIL-TO-RAIL OUTPUT OPERATIONAL AMPLIFIERS

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THS4221D Datasheet, PDF (17/40 Pages) Texas Instruments – LOW-DISTORTION, HIGH-SPEED, RAIL-TO-RAIL OUTPUT OPERATIONAL AMPLIFIERS

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APPLICATION CIRCUITS

Driving an Analog-to-Digital Converter With the

THS4222

The THS4222 can be used to drive high-performance

analog-to-digital converters. Two example circuits are

presented below.

The first circuit uses a wideband transformer to convert a

single-ended input signal into a differential signal. The

differential signal is then amplified and filtered by two

THS4222 amplifiers. This circuit provides low

intermodulation distortion, suppressed even-order

distortion, 14 dB of voltage gain, a 50-â¦ input impedance,

and a single-pole filter at 25 MHz. For applications without

signal content at dc, this method of driving ADCs can be

very useful. Where dc information content is required, the

THS4500 family of fully differential amplifiers may be

applicable.

50 â¦ (1:4 â¦)

Source 1:2

649 â¦

THS4222

â5 V

1.3 kâ¦

24.9 â¦

237 â¦

649 â¦

4.7 pF

1.3 kâ¦

ADS807

12-Bit, 53 Msps

24.9 â¦

THS4222

Figure 32. A Linear, Low Noise, High Gain ADC

Preamplifier

The second circuit depicts single-ended ADC drive. While

not recommended for optimum performance using

converters with differential inputs, satisfactory

THS4221, THS4225

THS4222, THS4226

SLOS399G â AUGUST 2002 â REVISED JANUARY 2004

performance can sometimes be achieved with

single-ended input drive. An example circuit is shown here

for reference.

50 â¦

Source

49.9 â¦ RT

+5 V

THS4222

RISO 0.1 ÂµF

16.5 â¦

68 pf

â5 V

1.3 kâ¦

Rg 1.3 kâ¦

1.82 kâ¦

ADS807

12-Bit,

CM 53 Msps

0.1 ÂµF

NOTE: For best performance, high-speed ADCs should be driven

differentially. See the THS4500 family of devices for more

information.

Figure 33. Driving an ADC With a

Single-Ended Input

Active Filtering With the THS4222

High-frequency active filtering with the THS4222 is

achievable due to the amplifierâs high slew rate, wide

bandwidth, and voltage feedback architecture. Several

options are available for high-pass, low-pass, bandpass,

and bandstop filters of varying orders. A simple two-pole

low pass filter is presented here as an example, with two

poles at about 25 MHz.

50 â¦ Source

1.3 kâ¦

52.3 â¦

4.7 pF

1.3 kâ¦

THS4222

â5 V

49.9 â¦

120 pF

Figure 34. A Two-Pole Active Filter With Two

Poles at about 25 MHz

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