ALD2726_11 Datasheet, PDF(1/13 Page) Advanced Linear Devices – DUAL EPAD® ULTRA MICROPOWER CMOS OPERATIONAL AMPLIFIER

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ALD2726_11 Datasheet, PDF (1/13 Pages) Advanced Linear Devices – DUAL EPAD® ULTRA MICROPOWER CMOS OPERATIONAL AMPLIFIER

ADVANCED

LINEAR

DEVICES, INC.

eÂ®

EPAD

ALD2726E/ALD2726

DUAL EPADÂ® ULTRA MICROPOWER CMOS OPERATIONAL AMPLIFIER

KEY FEATURES

â¢ EPAD (Electrically Programmable Analog Device)

â¢ User programmable VOS trimmer

â¢ Computer-assisted trimming

â¢ Rail-to-rail input/output

â¢ Compatible with standard EPAD Programmer

â¢ Each amplifier VOS can be trimmed to a different VOS level

â¢ High precision through in-system circuit precision trimming

â¢ Reduces or eliminates VOS, PSRR, CMRR and TCVOS errors

â¢ System level âcalibrationâ capability

â¢ Application Specific Programming mode

â¢ In-System Programming mode

â¢ Electrically programmable to compensate for external

component tolerances

â¢ Achieves 0.01pA input bias current and 35ÂµV input offset

voltage simultaneously

â¢ Â±1V to Â±5V operation

GENERAL DESCRIPTION

The ALD2726E/ALD2726 is a dual monolithic rail-to-rail precision CMOS

operational amplifier with integrated user programmable EPAD (Electri-

cally Programmable Analog Device) based offset voltage adjustment. The

ALD2726E/ALD2726 is a dual version of the ALD1726E/ALD2726 opera-

tional amplifier. Each ALD2721E/ALD2721 operational amplifier features

individual user-programming offset voltage trimming, resulting in signifi-

cantly enhanced total system performance and user flexibility. EPAD

technology is an exclusive ALD design which has been refined for analog

applications where precision voltage trimming is necessary to achieve a

desired performance. It utilizes CMOS FETs as in-circuit elements for

trimming of offset voltage bias characteristics with the aid of a personal

computer under software control. Once programmed, the set parameters

are stored indefinitely within the device even after power-down. EPAD

offers the circuit designer a convenient and cost-effective trimming solution

for achieving the very highest amplifier/system performance.

The ALD2726E/ALD2726 dual operational amplifier features rail-to-rail

input and output voltage ranges, tolerance to over-voltage input spikes of

300mV beyond supply rails, capacitive loading up to 25pF, extremely low

input currents of 0.01pA typical, high open loop voltage gain, useful

bandwidth of 700KHz, slew rate of 0.7V/Âµs, and low typical supply current

of 50ÂµA for both amplifiers.

ORDERING INFORMATION

Operating Temperature Range

0Â°C to +70Â°C

-55Â°C to +125Â°C

14-Pin

Small Outline

Package (SOIC)

14-Pin

Plastic Dip

Package

14-Pin

CERDIP

Package

ALD2726ESB

ALD2726SB

ALD2726EPB

ALD2726PB

* Contact factory for high temperature versions.

ALD2726EDB

ALD2726DB

BENEFITS

â¢ Eliminates manual and elaborate

system trimming procedures

â¢ Remote controlled automated trimming

â¢ In-System Programming capability

â¢ No external components

â¢ No internal clocking noise source

â¢ Simple and cost effective

â¢ Small package size

â¢ Extremely small total functional

volume size

â¢ Low system implementation cost

â¢ Micropower

APPLICATIONS

â¢ Sensor interface circuits

â¢ Transducer biasing circuits

â¢ Capacitive and charge integration circuits

â¢ Biochemical probe interface

â¢ Signal conditioning

â¢ Portable instruments

â¢ High source impedance electrode

amplifiers

â¢ Precision Sample and Hold amplifiers

â¢ Precision current to voltage converter

â¢ Error correction circuits

â¢ Sensor compensation circuits

â¢ Precision gain amplifiers

â¢ Periodic In-system calibration

â¢ System output level shifter

PIN CONFIGURATION

-IN A 1

+IN A 2

V- 3

N/C 4

N/C 5

+IN B 6

-IN B 7

14 VE 2A

13 VE 1A

12 OUT A

11 V+

10 OUT B

9 VE 1B

8 VE 2B

TOP VIEW

SB, PB, DB PACKAGES

* N/C Pins are internally connected. Do not connect externally.

www.aldinc.com

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