OP497 Datasheet, PDF(1/12 Page) Analog Devices – Precision Picoampere Input Current Quad Operational Amplifier

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OP497 Datasheet, PDF (1/12 Pages) Analog Devices – Precision Picoampere Input Current Quad Operational Amplifier

Precision Picoampere Input Current

Quad Operational Amplifier

OP497

FEATURES

Low Offset Voltage: 50 â®V max

Low Offset Voltage Drift: 0.5 â®V/ØC max

Very Low Bias Current

25ØC: 100 pA max

â55ØC to +125ØC: 450 pA max

Very High Open-Loop Gain: 2000 V/mV min

Low Supply Current (per Amplifier): 625 â®A max

Operates from Ø2 V to Ø20 V Supplies

High Common-Mode Rejection: 120 dB min

APPLICATIONS

Strain Gage and Bridge Amplifiers

High Stability Thermocouple Amplifiers

Instrumentation Amplifiers

Photo-Current Monitors

High Gain Linearity Amplifiers

Long-Term Integrators/Filters

Sample-and-Hold Amplifiers

Peak Detectors

Logarithmic Amplifiers

Battery-Powered Systems

GENERAL DESCRIPTION

The OP497 is a quad op amp with precision performance in the

space-saving, industry standard 16-lead SOlC package. Its com-

bination of exceptional precision with low power and extremely

low input bias current makes the quad OP497 useful in a wide

variety of applications.

Precision performance of the OP497 includes very low offset,

under 50 ÂµV, and low drift, below 0.5 ÂµV/Â°C. Open-loop gain

exceeds 2000 V/mV ensuring high linearity in every application.

Errors due to common-mode signals are eliminated by the OP497âs

common-mode rejection of over 120 dB. The OP497âs power

supply rejection of over 120 dB minimizes offset voltage changes

experienced in battery-powered systems. Supply current of the

OP497 is under 625 ÂµA per amplifier, and it can operate with

supply voltages as low as Â± 2 V.

The OP497 utilizes a superbeta input stage with bias current can-

cellation to maintain picoamp bias currents at all temperatures.

This is in contrast to FET input op amps whose bias currents start

in the picoamp range at 25Â°C, but double for every 10Â°C rise in

temperature, to reach the nanoamp range above 85Â°C. Input bias

current of the OP497 is under 100 pA at 25Â°C and is under 450

pA over the military temperature range.

Combining precision, low power, and low bias current, the

OP497 is ideal for a number of applications, including instru-

mentation amplifiers, log amplifiers, photo-diode preamplifiers,

and long-term integrators. For a single device, see the OP97; for a

dual device, see the OP297.

REV. D

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 that

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

under any patent or patent rights of Analog Devices.

PIN CONNECTIONS

16-Lead Wide Body SOIC

(S-Suffix)

OUT A 1

âIN A 2

+IN A 3

V+ 4

+IN B 5

âIN B 6

OUT B 7

NC 8

â+

OP497

â+

16 OUT D

15 âIN D

14 +IN D

13 Vâ

12 +IN C

11 âIN C

10 OUT C

9 NC

NC = NO CONNECT

14-Lead Plastic Dip

(P-Suffix)

14-Lead Ceramic Dip

(Y-Suffix)

OUT A 1

âIN A 2

+IN A 3

V+ 4

+IN B 5

âIN B 6

OUT B 7

â+

OP497

â+

14 OUT D

13 âIN D

12 +IN D

11 Vâ

10 +IN C

9 âIN C

8 OUT C

1000

VS = Ø15V

VCM = 0V

100

âIB

+IB

IOS

â75 â50 â25

75 100 125

TEMPERATURE â C

Input Bias, Offset Current vs. Temperature

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

Tel: 781/329-4700

www.analog.com

Fax: 781/326-8703

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