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AD826ANADN/a111avaiHigh-Speed, Low-Power Dual Operational Amplifier
AD826ARADN/a12774avaiHigh-Speed, Low-Power Dual Operational Amplifier
AD826AR-REEL |AD826ARREELADN/a12774avaiHigh-Speed, Low-Power Dual Operational Amplifier
AD826AR-REEL7 |AD826ARREEL7ADN/a178avaiHigh-Speed, Low-Power Dual Operational Amplifier
AD826AR-REEL7 |AD826ARREEL7ADIN/a120avaiHigh-Speed, Low-Power Dual Operational Amplifier


AD826AR ,High-Speed, Low-Power Dual Operational AmplifierSPECIFICATIONSAParameter Conditions V Min Typ Max UnitSDYNAMIC PERFORMANCEUnity Gain Bandwidth ±5 V ..
AD826AR-REEL ,High-Speed, Low-Power Dual Operational AmplifierSpecifications subject to change without notice.ESD (electrostatic discharge) sensitive device. Ele ..
AD826AR-REEL7 ,High-Speed, Low-Power Dual Operational AmplifierCHARACTERISTICS = 500 Ω± 5 V 3.3 3.8 ±VOutput Voltage Swing RLOADR = 150 Ω± 5 V 3.2 3.6 ±VLOAD = 1 ..
AD826AR-REEL7 ,High-Speed, Low-Power Dual Operational Amplifierapplications which require unity gain stabilitydata acquisition systems and achieves a settling tim ..
AD826ARZ-REEL7 , High-Speed, Low-Power Dual Operational Amplifier
AD826ARZ-REEL7 , High-Speed, Low-Power Dual Operational Amplifier
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AD826AN-AD826AR-AD826AR-REEL-AD826AR-REEL7
High-Speed, Low-Power Dual Operational Amplifier
REV.B
High-Speed, Low-Power
Dual Operational Amplifier
CONNECTION DIAGRAM
8-Lead Plastic Mini-DIP and SO Package

The AD826 features high output current drive capability ofmA min per amp, and is able to drive unlimited capacitive
loads. With a low power supply current of 15 mA max for both
amplifiers, the AD826 is a true general purpose operational
amplifier.
The AD826 is ideal for power sensitive applications such as video
cameras and portable instrumentation. The AD826 can operate
from a single +5 V supply, while still achieving 25 MHz of band-
width. Furthermore the AD826 is fully specified from a single
+5 V to ±15 V power supplies.
The AD826 excels as an ADC/DAC buffer or active filter in
data acquisition systems and achieves a settling time of 70 ns
to 0.01%, with a low input offset voltage of 2 mV max. The
AD826 is available in small 8-lead plastic mini-DIP and SO
packages.
FEATURES
High Speed:
50 MHz Unity Gain Bandwidth
350 V/�s Slew Rate
70 ns Settling Time to 0.01%
Low Power:
7.5 mA Max Power Supply Current Per Amp
Easy to Use:
Drives Unlimited Capacitive Loads
50 mA Min Output Current Per Amplifier
Specified for +5 V, �5 V and �15 V Operation
2.0 V p-p Output Swing into a 150 � Load
(VS = +5 V)
Good Video Performance
Differential Gain & Phase Error of 0.07% & 0.11�
Excellent DC Performance:
2.0 mV Max Input Offset Voltage
APPLICATIONS
Unity Gain ADC/DAC Buffer
Cable Drivers
8- and 10-Bit Data Acquisition Systems
Video Line Driver
Active Filters
PRODUCT DESCRIPTION

The AD826 is a dual, high speed voltage feedback op amp. It
is ideal for use in applications which require unity gain stability
and high output drive capability, such as buffering and cable
driving. The 50 MHz bandwidth and 350 V/µs slew rate make
the AD826 useful in many high speed applications including:
video, CATV, copiers, LCDs, image scanners and fax machines.
Driving a Large Capacitive Load
AD826–SPECIFICATIONS(@ TA = +25�C, unless otherwise noted)
AD826
ABSOLUTE MAXIMUM RATINGS1

Supply Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ±18 V
Internal Power Dissipation2
Plastic (N) . . . . . . . . . . . . . . . . . . . . . See Derating Curves
Small Outline (R) . . . . . . . . . . . . . . . . See Derating Curves
Input Voltage (Common Mode) . . . . . . . . . . . . . . . . . . . ±VS
Differential Input Voltage . . . . . . . . . . . . . . . . . . . . . . . ±6 V
Output Short Circuit Duration . . . . . . . See Derating Curves
Storage Temperature Range (N, R) . . . . . . . –65°C to +125°C
Operating Temperature Range . . . . . . . . . . –40°C to +85°C
Lead Temperature Range (Soldering 10 seconds) . . . +300°C
NOTES
1Stresses above those listed under Absolute Maximum Ratings may cause perma-
nent damage to the device. This is a stress rating only; functional operation of the
device at these or any other conditions above those indicated in the operational
section of this specification is not implied. Exposure to absolute maximum rating
conditions for extended periods may affect device reliability .
2Specification is for device in free air: 8-lead plastic package, θJA = 100°C/watt;
8-lead SOIC package, θJA = 155°C/watt.
ORDERING GUIDE

MATCHING CHARACTERISTICS
NOTES
1Full power bandwidth = slew rate/2π VPEAK.
Specifications subject to change without notice.
ESD SUSCEPTIBILITY

ESD (electrostatic discharge) sensitive device. Electrostatic charges
as high as 4000 volts, which readily accumulate on the human
body and on test equipment, can discharge without detection.
Although the AD826 features proprietary ESD protection cir-
cuitry, permanent damage may still occur on these devices
if they are subjected to high energy electrostatic discharges.
Therefore, proper ESD precautions are recommended to avoid
any performance degradation or loss of functionality.
AD826
Figure 1.Common-Mode Voltage Range vs. Supply
Figure 2.Output Voltage Swing vs. Supply
10k
LOAD RESISTANCE – �
OUTPUT VOLTAGE SWING
Volts p-p

Figure 3.Output Voltage Swing vs. Load Resistance
Figure 4.Quiescent Supply Current per Amp vs. Supply
Voltage for Various Temperatures
SLEW RATE
V/
501510
SUPPLY VOLTAGE – �Volts
250

Figure 5.Slew Rate vs. Supply Voltage
0.0110k100M10M1M100k
FREQUENCY – Hz
CLOSED-LOOP OUTPUT IMPEDANCE

Figure 6.Closed-Loop Output Impedance vs. Frequency
– Typical Characteristics
Figure 7.Input Bias Current vs. Temperature
Figure 8.Short Circuit Current vs. Temperature
Figure 9.Unity Gain Bandwidth and Phase Margin
vs. Temperature
Figure 10.Open-Loop Gain and Phase Margin
vs. Frequency
Figure 11.Open-Loop Gain vs. Load Resistance
100M100
10M1M100k10k
FREQUENCY – Hz
PSR
dB

Figure 12.Power Supply Rejection vs. Frequency
AD826
14010M
10k
100k1M
FREQUENCY – Hz
CMR
dB

Figure 13.Common-Mode Rejection vs. Frequency
Figure 14.Large Signal Frequency Response
Figure 15.Output Swing and Error vs. Settling Time
Figure 16. Harmonic Distortion vs. Frequency
Figure 17. Input Voltage Noise Spectral Density
Figure 18. Slew Rate vs. Temperature

Figure 19. Closed-Loop Gain vs. Frequency
Figure 20. Differential Gain and Phase vs. Supply Voltage
100k100M10M1M10k
FREQUENCY – Hz
CROSSTALK
dB

Figure 21. Crosstalk vs. Frequency
Figure 22. Closed-Loop Gain vs. Frequency, Gain = –1
Figure 23. Gain Flatness Matching vs. Supply, G = +1
Figure 24. Crosstalk Test Circuit
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