AD849 Analog Devices, AD849 Datasheet

AD849

Manufacturer Part Number

AD849

Description

High Speed, Low Power Monolithic Op Amps

Manufacturer

Analog Devices

Datasheet

1.AD849.pdf (8 pages)

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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.

PRODUCT DESCRIPTION

The AD848 and AD849 are high speed, low power monolithic

operational amplifiers. The AD848 is internally compensated so

that it is stable for closed loop gains of 5 or greater. The AD849

is fully decompensated and is stable at gains greater than 24.

The AD848 and AD849 achieve their combination of fast ac

and good dc performance by utilizing Analog Devices’ junction

isolated complementary bipolar (CB) process. This process

enables these op amps to achieve their high speed while only

requiring 4.8 mA of current from the power supplies.

The AD848 and AD849 are members of Analog Devices’ family

of high speed op amps. This family includes, among others, the

AD847 which is unity gain stable, with a gain bandwidth of

50 MHz. For more demanding applications, the AD840,

AD841 and AD842 offer even greater precision and greater

output current drive.

The AD848 and AD849 have good dc performance. When

operating with 5 V supplies, they offer open loop gains of

13 V/mV (AD848 with a 500

voltage of 1 mV maximum. Common-mode rejection is a

minimum of 92 dB. Output voltage swing is 3 V even into

loads as low as 150 .

FEATURES

725 MHz Gain Bandwidth – AD849

175 MHz Gain Bandwidth – AD848

4.8 mA Supply Current

300 V/ s Slew Rate

80 ns Settling Time to 0.1% for a 10 V Step – AD849

Differential Gain: AD848 = 0.07%, AD849 = 0.08%

Differential Phase: AD848 = 0.08 , AD849 = 0.04

Drives Capacitive Loads

DC PERFORMANCE

3 nV/ Hz Input Voltage Noise – AD849

85 V/mV Open Loop Gain into a 1 k

1 mV max Input Offset Voltage

Performance Specified for

Available in Plastic, Hermetic Cerdip and Small Outline

Available in Tape and Reel in Accordance with

APPLICATIONS

Cable Drivers

8- and 10-Bit Data Acquisition Systems

Video and R

Signal Generators

Packages. Chips and MIL-STD-883B Parts Available.

EIA-481A Standard

Amplification

load) and low input offset

5 V and

Load – AD849

15 V Operation

APPLICATIONS HIGHLIGHTS

1. The high slew rate and fast settling time of the AD848 and

2. In order to meet the needs of both video and data acquisition

3. Both amplifiers offer full power bandwidth greater than

4. The AD848 and AD849 remain stable when driving any

5. Laser wafer trimming reduces the input offset voltage to

6. The AD848 is an enhanced replacement for the LM6164

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

Tel: 617/329-4700

AD849 make them ideal for video instrumentation circuitry,

low noise pre-amps and line drivers.

applications, the AD848 and AD849 are optimized and

tested for 5 V and 15 V power supply operation.

20 MHz (for 2 V p-p with 5 V supplies).

capacitive load.

1 mV maximum on all grades, thus eliminating the need for

external offset nulling in many applications.

series and can function as a pin-for-pin replacement for

many high speed amplifiers such as the HA2520/2/5 and

EL2020 in applications where the gain is 5 or greater.

OFFSET

CONNECTION DIAGRAMS

High Speed, Low Power

NULL

20-Terminal LCC Pinout

–V

–IN

+IN

Small Outline (R) and

Cerdip (Q) Packages

NC = NO CONNECT

(Not to Scale)

Monolithic Op Amp

NC = NO CONNECT

AD848/49

TOP VIEW

AD848SE/883B

Plastic (N),

(Not to Scale)

TOP VIEW

AD848/AD849

NULL

OUTPUT

V–

Fax: 617/326-8703

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AD849 Summary of contents

Page 1

... The AD848 and AD849 are high speed, low power monolithic operational amplifiers. The AD848 is internally compensated so that it is stable for closed loop gains greater. The AD849 is fully decompensated and is stable at gains greater than 24. The AD848 and AD849 achieve their combination of fast ac and good dc performance by utilizing Analog Devices’ ...

Page 2

... AD848/AD849–SPECIFICATIONS Model Conditions 1 INPUT OFFSET VOLTAGE T Offset Drift INPUT BIAS CURRENT T INPUT OFFSET CURRENT T Offset Current Drift OPEN LOOP GAIN DYNAMIC PERFORMANCE Gain Bandwidth A 2 Full Power Bandwidth V V Slew Rate R Settling Time to 0.1% –2 +2 Step, A ...

Page 3

... 500 5 V LOAD = 150 5 V LOAD = LOAD = LOAD = 500 15 V LOAD MIN MAX MIN MAX = + –3– AD848/AD849 AD849J AD849A/S Min Typ Max Min Typ Max 0.3 1 0.1 0.75 0.3 1 0.1 0.75 1.3 1.0 1.3 1 3.3 6.6 3.3 6.6/5 7.2 7.5 50 300 50 300 ...

Page 4

... AD849SQ AD849SQ/883B AD847J/A/S NOTES LCC Plastic DIP Cerdip Small Outline IC (SOIC). 2 Plastic SOIC (R) available in tape and reel. AD848 available in S grade chips. AD849 available in J and S grade chips Contact factory for latest dimensions. (AD848 and AD849 are identical ...

Page 5

... Figure 1a. AD848 Large Signal Pulse Response Figure 1b. AD848 Small Signal Pulse Response OFFSET NULLING The input voltage of the AD848 and AD849 are very low for high speed op amps, but if additional nulling is required, the circuit shown in Figure 3 can be used. For high performance circuits it is recommended that a resistor ...

Page 6

... Figure 11. Short Circuit Current Limit vs. Temperature (AD848 and AD849) –6– unless otherwise noted) Figure 6. Output Voltage Swing vs. Load Resistance (AD848 and AD849) Figure 9. Output Swing and Error vs. Settling Time (AD848) Figure 12. Input Bias Current vs. Temperature (AD848 and AD849) REV. B ...

Page 7

... Phase Margin vs. Frequency (AD848) Figure 16. Harmonic Distortion vs. Frequency (AD848) Figure 19. Power Supply Rejection vs. Frequency (AD848) REV. B Figure 14. Open Loop Gain and Phase Margin vs. Frequency (AD849) Figure 17. Harmonic Distortion vs. Frequency (AD849) Figure 20. Power Supply Rejection vs. Frequency (AD849) –7– AD848/AD849 Figure 15. Normalized Gain Band- width Product vs ...

Page 8

... LOW NOISE PRE-AMP The input voltage noise spectral densities of the AD848 and the AD849 are shown in Figure 24. The low wideband noise and high gain bandwidths of these devices makes them well suited as pre-amps for high frequency systems. ...

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