ADS831 Datasheet, PDF(8/11 Page) Burr-Brown (TI) – 8-Bit, 80MHz Sampling ANALOG-TO-DIGITAL CONVERTER

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ADS831 Datasheet, PDF (8/11 Pages) Burr-Brown (TI) – 8-Bit, 80MHz Sampling ANALOG-TO-DIGITAL CONVERTER

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VIN

+VIN

âVIN

0.1ÂµF

VCM = +2.5VDC

+5V

OPA681

402â¦

0.1ÂµF

1kâ¦

+5V

1kâ¦

REFB REFT RSEL +VS

+2.0V +3.0V

39â¦

47pF

ADS831

0.1ÂµF

INT/EXT GND

FIGURE 2. AC-Coupled Input Configuration for a 2Vp-p Full-Scale Range and a Common-Mode Voltage, VCM, at +2.5V

Derived From the Internal Top (REFT) and Bottom Reference (REFB). The OPA680 can be used in place of the

OPA681 if a voltage feedback amplifier is preferred.

+5V

VIN

OPA642

â5V

402â¦

24.9â¦

0.1ÂµF

+5V

1kâ¦

47pF

REFT RSEL +VS

+3.0V

ADS831

1kâ¦

0.1ÂµF

REFB

+2.0V INT/EXT GND

FIGURE 3. AC-Coupling the Dual Supply Amplifier OPA642 to the ADS831 for a 2Vp-p Full-Scale Input Range.

For applications requiring the driving amplifier to provide a

signal amplification with a gain â¥ 5, consider using decom-

pensated voltage feedback op amps, such as the OPA643, or

current feedback op amps OPA681 and OPA658.

DC-Coupled with Level Shift

Several applications may require that the bandwidth of the

signal path includes DC, in which case the signal has to be

DC-coupled to the A/D converter. In order to accomplish

this, the interface circuit has to provide a DC level shift to

the analog input signal. The circuit shown in Figure 4

employs a dual op amp, A1, to drive the input of the

ADS831 and level shift the signal to be compatible with

the selected input range. With the RSEL pin tied to the

supply and the INT/EXT pin to ground, the ADS831 is

configured for a 2Vp-p input range and uses the internal

references. The complementary input (IN) may be appropri-

ately biased using the +2.5V common-mode voltage avail-

able at the CM pin. One-half of the amplifier (OPA2681)

buffers the REFB pin and drives the voltage divider R1, R2.

Because of the op ampâs noise gain of +2V/V, assuming

RF = RIN , the common-mode voltage (VCM) has to be re-

scaled to +1.25V, resulting in the correct DC level of +2.5V

for the signal input (IN). Any DC voltage differences

between the IN and IN inputs of the ADS831 effectively

produce an offset, which can be corrected for by adjusting

the resistor values of the divider, R1 and R2. The selection

criteria for a suitable op amp should include the supply

voltage, input bias current, output voltage swing, distortion,

and noise specification. Note that in this example the overall

signal phase is inverted. To re-establish the original signal

polarity, it is always possible to interchange the IN and IN

connections.

Â®

ADS831

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