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AD797BRZ-REEL

Ultralow Distortion, Ultralow Noise Op Amp

Analog Devices 

AD797

The I-to-V converter is a special case of the follower configu-

ration. When the AD797 is used in an I-to-V converter, for

example as a DAC buffer, the circuit shown in Figure 40 should

be used. The value of CL depends on the DAC, and if CL is greater

than 33 pF, a 100 Ω series resistor is required. A bypassed balancing

resistor (RS and CS) can be included to minimize dc errors.

20pF TO 120pF

100Ω

R1

+VS

IIN

*

2

7

AD797

6

3

4

CS

RS

*

VOUT

600Ω

–VS

*USE THE POWER SUPPLY BYPASSING SHOWN IN FIGURE 35.

Figure 40. I-to-V Converter Connection

THE INVERTING CONFIGURATION

The inverting configuration (see Figure 41) presents a low input

impedance, R1, to the source. For this reason, the goals of both

low noise and input buffering are at odds with one another.

Nonetheless, the excellent dynamics of the AD797 makes

it the preferred choice in many inverting applications, and

with careful selection of feedback resistors, the noise penalties

are minimal. Some examples are presented in Table 7 and

Figure 41.

CL

R2

R1

VIN

RS

+VS

*

2

7

AD797 6

3

4

*

–VS

VOUT

RL

*USE THE POWER SUPPLY BYPASSING SHOWN IN FIGURE 35.

Figure 41. Inverting Amplifier Connection

Table 7. Values for Inverting Circuit

Gain

−1

−1

−10

R1

1 kΩ

300 Ω

150 Ω

R2

1 kΩ

300 Ω

1500 Ω

CL

≈ 20 pF

≈ 10 pF

≈ 5 pF

Noise

(Excluding RS)

3.0 nV/√Hz

1.8 nV/√Hz

1.8 nV/√Hz

Data Sheet

DRIVING CAPACITIVE LOADS

The capacitive load driving capabilities of the AD797 are

displayed in Figure 42. At gains greater than 10, usually no

special precautions are necessary. If more drive is desirable,

however, the circuit shown in Figure 43 should be used. For

example, this circuit allows a 5000 pF load to be driven cleanly

at a noise gain ≥2.

100nF

10nF

1nF

100pF

10pF

1pF

1

10

100

1k

CLOSED-LOOP GAIN

Figure 42. Capacitive Load Drive Capability vs. Closed-Loop Gain

20pF

200pF

1kΩ

100Ω

+VS

*

1kΩ

2

7

VIN

AD797 6

33Ω

VOUT

C1

3

4

*

–VS

*USE THE POWER SUPPLY BYPASSING SHOWN IN FIGURE 35.

Figure 43. Recommended Circuit for Driving a High Capacitance Load

SETTLING TIME

The AD797 is unique among ultralow noise amplifiers in that it

settles to 16 bits (<150 μV) in less than 800 ns. Measuring this

performance presents a challenge. A special test circuit (see

Figure 44) was developed for this purpose. The input signal was

obtained from a resonant reed switch pulse generator, available

from Tektronix as calibration Fixture No. 067-0608-00. When

open, the switch is simply 50 Ω to ground and settling is purely

a passive pulse decay and inherently flat. The low repetition rate

signal was captured on a digital oscilloscope after being amplified

and clamped twice. The selection of plug-in for the oscilloscope

was made for minimum overload recovery.

Rev. K | Page 14 of 19

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