AD8250ARMZ-R7 Datasheet, PDF(1/24 Page) Analog Devices – 10 MHz, 20 V/μs, G = 1, 2, 5, 10 iCMOS Programmable Gain Instrumentation Amplifier

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AD8250ARMZ-R7 Datasheet, PDF (1/24 Pages) Analog Devices – 10 MHz, 20 V/μs, G = 1, 2, 5, 10 iCMOS Programmable Gain Instrumentation Amplifier

Data Sheet

10 MHz, 20 V/Î¼s, G = 1, 2, 5, 10 iCMOS

Programmable Gain Instrumentation Amplifier

AD8250

FEATURES

Small package: 10-lead MSOP

Programmable gains: 1, 2, 5, 10

Digital or pin-programmable gain setting

Wide supply: Â±5 V to Â±15 V

Excellent dc performance

High CMRR 98 dB (minimum), G = 10

Low gain drift: 10 ppm/Â°C (maximum)

Low offset drift: 1.7 Î¼V/Â°C (maximum), G = 10

Excellent ac performance

Fast settling time: 615 ns to 0.001% (maximum)

High slew rate: 20 V/Âµs (minimum)

Low distortion: â110 dB THD at 1 kHz

High CMRR over frequency: 80 dB to 50 kHz (minimum)

Low noise: 18 nV/âHz, G = 10 (maximum)

Low power: 4.1 mA

APPLICATIONS

Data acquisition

Biomedical analysis

Test and measurement

GENERAL DESCRIPTION

The AD8250 is an instrumentation amplifier with digitally

programmable gains that has Gâ¦ input impedance, low output

noise, and low distortion making it suitable for interfacing with

sensors and driving high sample rate analog-to-digital converters

(ADCs). It has a high bandwidth of 10 MHz, low THD of â110

dB and fast settling time of 615 ns (maximum) to 0.001%. Offset

drift and gain drift are guaranteed to 1.7 Î¼V/Â°C and 10 ppm/Â°C,

respectively, for G = 10. In addition to its wide input common

voltage range, it boasts a high common-mode rejection of 80 dB

at G = 1 from dc to 50 kHz. The combination of precision dc

performance coupled with high speed capabilities makes the

AD8250 an excellent candidate for data acquisition. Furthermore,

this monolithic solution simplifies design and manufacturing

and boosts performance of instrumentation by maintaining a

tight match of internal resistors and amplifiers.

The AD8250 user interface consists of a parallel port that allows

users to set the gain in one of two ways (see Figure 1). A 2-bit word

sent via a bus can be latched using the WR input. An alternative is

to use the transparent gain mode where the state of the logic levels

at the gain port determines the gain.

FUNCTIONAL BLOCK DIAGRAM

DGND WR A1 A0

âIN 1

LOGIC

7 OUT

+IN 10

AD8250

+VS

âVS

REF

Figure 1.

G = 10

G=5

G=2

G=1

â5

â10

10k

100k

10M

FREQUENCY (Hz)

Figure 2. Gain vs. Frequency

100M

Table 1. Instrumentation Amplifiers by Category

General

Purpose

Mil

Zero Drift Grade

Low

Power

High Speed

PGA

AD82201 AD82311 AD620

AD6271

AD8250

AD8221

AD85531 AD621

AD6231

AD8251

AD8222

AD85551 AD524

AD82231

AD8253

AD82241 AD85561 AD526

AD8228

AD85571 AD624

1 Rail-to-rail output.

The AD8250 is available in a 10-lead MSOP package and is

specified over the â40Â°C to +85Â°C temperature range, making

it an excellent solution for applications where size and packing

density are important considerations.

Rev. C

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