OP177_06 Datasheet, PDF(10/16 Page) Analog Devices – Ultraprecision Operational Amplifier

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OP177_06 Datasheet, PDF (10/16 Pages) Analog Devices – Ultraprecision Operational Amplifier

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OP177

PRECISION HIGH GAIN DIFFERENTIAL AMPLIFIER

The high gain, gain linearity, CMRR, and low TCVOS of the

OP177 make it possible to obtain performance not previously

available in single stage, very high gain amplifier applications.

See Figure 27.

For best CMR, must equal

In this example, with a 10 mV differential signal, the maximum

errors are listed in Table 6.

1Mâ¦

+15V

0.1ÂµF

1kâ¦

1Mâ¦

2â 7

OP177 6

0.1ÂµF

â15V

Figure 27. Precision High Gain Differential Amplifier

Table 6. High Gain Differential Amp Performance

Type

Amount

Common-Mode Voltage

0.1%/V

Gain Linearity, Worst Case

0.02%

TCVOS

0.0003%/Â°C

TCIOS

0.008%/Â°C

ISOLATING LARGE CAPACITIVE LOADS

The circuit shown in Figure 28 reduces maximum slew rate but

allows driving capacitive loads of any size without instability.

Because the 100 Î© resistor is inside the feedback loop, its effect

on output impedance is reduced to insignificance by the high

open loop gain of the OP177.

10pF

+15V

0.1ÂµF

INPUT

2â 7

OP177 6

4 0.1ÂµF

100â¦

OUTPUT

CLOAD

â15V

Figure 28. Isolating Capacitive Loads

BILATERAL CURRENT SOURCE

The current sources shown in Figure 29 supply both positive

and negative currents into a grounded load.

Note that

R5ââ R4 + 1ââ

ZO =

â R2 â

R5 + R4 â R3

R2 R1

and that for ZO to be infinite

R5 + R4 must = R3

PRECISION ABSOLUTE VALUE AMPLIFIER

The high gain and low TCVOS assure accurate operation with

inputs from microvolts to volts. In this circuit, the signal always

appears as a common-mode signal to the op amps (for details,

see Figure 30).

Rev. E | Page 10 of 16

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