AD8629_15 Datasheet, PDF(1/24 Page) Analog Devices – Zero-Drift, Single-Supply, Rail-to-Rail

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AD8629_15 Datasheet, PDF (1/24 Pages) Analog Devices – Zero-Drift, Single-Supply, Rail-to-Rail

Data Sheet

Zero-Drift, Single-Supply, Rail-to-Rail

Input/Output Operational Amplifier

AD8628/AD8629/AD8630

FEATURES

Lowest auto-zero amplifier noise

Low offset voltage: 1 ÂµV

Input offset drift: 0.002 ÂµV/Â°C

Rail-to-rail input and output swing

5 V single-supply operation

High gain, CMRR, and PSRR: 130 dB

Very low input bias current: 100 pA maximum

Low supply current: 1.0 mA

Overload recovery time: 50 Âµs

No external components required

Qualified for automotive applications

APPLICATIONS

Automotive sensors

Pressure and position sensors

Strain gage amplifiers

Medical instrumentation

Thermocouple amplifiers

Precision current sensing

Photodiode amplifiers

GENERAL DESCRIPTION

This amplifier has ultralow offset, drift, and bias current.

The AD8628/AD8629/AD8630 are wide bandwidth auto-zero

amplifiers featuring rail-to-rail input and output swing and low

noise. Operation is fully specified from 2.7 V to 5 V single supply

(Â±1.35 V to Â±2.5 V dual supply).

The AD8628/AD8629/AD8630 provide benefits previously

found only in expensive auto-zeroing or chopper-stabilized

amplifiers. Using Analog Devices, Inc., topology, these zero-

drift amplifiers combine low cost with high accuracy and low

noise. No external capacitor is required. In addition, the AD8628/

AD8629/AD8630 greatly reduce the digital switching noise

found in most chopper-stabilized amplifiers.

With an offset voltage of only 1 ÂµV, drift of less than 0.005 Î¼V/Â°C,

and noise of only 0.5 ÂµV p-p (0 Hz to 10 Hz), the AD8628/

AD8629/AD8630 are suited for applications where error

sources cannot be tolerated. Position and pressure sensors,

medical equipment, and strain gage amplifiers benefit greatly

from nearly zero drift over their operating temperature range.

Many systems can take advantage of the rail-to-rail input and

output swings provided by the AD8628/AD8629/AD8630 to

reduce input biasing complexity and maximize SNR.

PIN CONFIGURATIONS

OUT 1

5 V+

AD8628

Vâ 2 TOP VIEW

(Not to Scale)

+IN 3

4 âIN

Figure 1. 5-Lead TSOT (UJ-5) and 5-Lead SOT-23 (RJ-5)

NC 1

8 NC

âIN 2 AD8628 7 V+

+IN 3 TOP VIEW 6 OUT

Vâ 4 (Not to Scale) 5 NC

NC = NO CONNECT

Figure 2. 8-Lead SOIC_N (R-8)

OUT A 1

8 V+

âIN A 2 AD8629 7 OUT B

+IN A

TOP VIEW

(Not to Scale)

âIN B

Vâ 4

5 +IN B

Figure 3. 8-Lead SOIC_N (R-8) and 8-Lead MSOP (RM-8)

OUT A 1

14 OUT D

âIN A 2

13 âIN D

+IN A 3 AD8630 12 +IN D

V+ 4 TOP VIEW 11 Vâ

+IN B 5 (Not to Scale) 10 +IN C

âIN B 6

9 âIN C

OUT B 7

8 OUT C

Figure 4. 14-Lead SOIC_N (R-14) and 14-Lead TSSOP (RU-14)

The AD8628/AD8629/AD8630 are specified for the extended

industrial temperature range (â40Â°C to +125Â°C). The AD8628

is available in tiny 5-lead TSOT, 5-lead SOT-23, and 8-lead

narrow SOIC plastic packages. The AD8629 is available in the

standard 8-lead narrow SOIC and MSOP plastic packages. The

AD8630 quad amplifier is available in 14-lead narrow SOIC and

14-lead TSSOP plastic packages. See the Ordering Guide for

automotive grades.

Rev. K

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