AD621_15 Datasheet, PDF(1/16 Page) Analog Devices – Low Drift, Low Power Instrumentation Amplifier

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AD621_15 Datasheet, PDF (1/16 Pages) Analog Devices – Low Drift, Low Power Instrumentation Amplifier

Low Drift, Low Power

Instrumentation Amplifier

AD621

FEATURES

EASY TO USE

Pin-Strappable Gains of 10 and 100

All Errors Specified for Total System Performance

Higher Performance than Discrete In Amp Designs

Available in 8-Lead DIP and SOIC

Low Power, 1.3 mA Max Supply Current

Wide Power Supply Range (Ø2.3 V to Ø18 V)

EXCELLENT DC PERFORMANCE

0.15% Max, Total Gain Error

Ø5 ppm/ØC, Total Gain Drift

125 â®V Max, Total Offset Voltage

1.0 â®V/ØC Max, Offset Voltage Drift

LOW NOISE

9 nV/âHz, @ 1 kHz, Input Voltage Noise

0.28 â®V p-p Noise (0.1 Hz to 10 Hz)

EXCELLENT AC SPECIFICATIONS

800 kHz Bandwidth (G = 10), 200 kHz (G = 100)

12 â®s Settling Time to 0.01%

APPLICATIONS

Weigh Scales

Transducer Interface and Data Acquisition Systems

Industrial Process Controls

Battery-Powered and Portable Equipment

PRODUCT DESCRIPTION

The AD621 is an easy to use, low cost, low power, high accu-

racy instrumentation amplifier that is ideally suited for a wide

range of applications. Its unique combination of high perfor-

mance, small size and low power, outperforms discrete in amp

implementations. High functionality, low gain errors, and low

30,000

25,000

20,000

3 OP AMP

IN AMP

(3 OP 07S)

15,000

10,000

AD621A

CONNECTION DIAGRAM

8-Lead Plastic Mini-DIP (N), Cerdip (Q)

and SOIC (R) Packages

G = 10/100 1

8 G = 10/100

âIN 2 AD621 7 +VS

+IN

TOP VIEW

(Not to Scale)

OUTPUT

âVS 4

5 REF

gain drift errors are achieved by the use of internal gain setting

resistors. Fixed gains of 10 and 100 can easily be set via external

pin strapping. The AD621 is fully specified as a total system,

therefore, simplifying the design process.

For portable or remote applications, where power dissipation,

size, and weight are critical, the AD621 features a very low

supply current of 1.3 mA max and is packaged in a compact

8-lead SOIC, 8-lead plastic DIP or 8-lead cerdip. The AD621

also excels in applications requiring high total accuracy, such

as precision data acquisition systems used in weigh scales and

transducer interface circuits. Low maximum error specifications

including nonlinearity of 10 ppm, gain drift of 5 ppm/Â°C, 50 ÂµV

offset voltage, and 0.6 ÂµV/Â°C offset drift (âBâ grade), make

possible total system performance at a lower cost than has been

previously achieved with discrete designs or with other mono-

lithic instrumentation amplifiers.

When operating from high source impedances, as in ECG and

blood pressure monitors, the AD621 features the ideal combina-

tion of low noise and low input bias currents. Voltage noise is

specified as 9 nV/âHz at 1 kHz and 0.28 ÂµV p-p from 0.1 Hz to

10 Hz. Input current noise is also extremely low at 0.1 pA/âHz.

The AD621 outperforms FET input devices with an input bias

current specification of 1.5 nA max over the full industrial tem-

perature range.

10,000

1,000

100

TYPICAL STANDARD

BIPOLAR INPUT

IN AMP

5,000

SUPPLY CURRENT â mA

Figure 1. Three Op Amp IA Designs vs. AD621

REV. B

Information furnished by Analog Devices is believed to be accurate and

reliable. However, no responsibility is assumed by Analog Devices for its

use, nor for any infringements of patents or other rights of third parties

which may result from its use. No license is granted by implication or

otherwise under any patent or patent rights of Analog Devices.

AD621 SUPERâ¤ETA

BIPOLAR INPUT

IN AMP

0.1

10k

100k

10M

SOURCE RESISTANCE â â

100M

Figure 2. Total Voltage Noise vs. Source Resistance

One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.

Tel: 781/329-4700 World Wide Web Site: http://www.analog.com

Fax: 781/326-8703

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