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AD8061ARADN/a342avaiLow-Cost, 300 MHz Rail-to-Rail Amplifiers
AD8061ARTADN/a3000avaiLow-Cost, 300 MHz Rail-to-Rail Amplifiers
AD8062ARN/a20avaiLow-Cost, 300 MHz Rail-to-Rail Amplifiers
AD8062ARMADN/a1200avaiLow-Cost, 300 MHz Rail-to-Rail Amplifiers
AD8063ARADN/a37avaiLow-Cost, 300 MHz Rail-to-Rail Amplifiers


AD8061ART ,Low-Cost, 300 MHz Rail-to-Rail AmplifiersSPECIFICATIONS unless otherwise noted)Parameter Conditions Min Typ Max UnitDYNAMIC PERFORMANCE–3 dB ..
AD8061ART-R2 ,Low Cost, Single, 300MHz Rail-to-Rail AmplifiersSPECIFICATIONS unless otherwise noted)Parameter Conditions Min Typ Max UnitDYNAMIC PERFORMANCE–3 dB ..
AD8061ART-REEL ,Low Cost, Single, 300MHz Rail-to-Rail AmplifiersSPECIFICATIONS A S L OParameter Conditions Min Typ Max UnitDYNAMIC PERFORMANCE–3 dB Small Signal Ba ..
AD8061ART-REEL ,Low Cost, Single, 300MHz Rail-to-Rail AmplifiersCHARACTERISTICSInput Resistance 13 MΩInput Capacitance 1pFInput Common-Mode Voltage Range –0.2 to + ..
AD8061ARZ-REEL , Low Cost, 300 MHz Rail-to-Rail Amplifiers
AD8061ARZ-REEL7 , Low Cost, 300 MHz Rail-to-Rail Amplifiers
ADM811ZARTZ-REEL , Microprocessor Supervisory Circuit in 4-Lead SOT-143 with DSP
ADM811ZARTZ-REEL7 , Microprocessor Supervisory Circuit in 4-Lead SOT-143 with DSP
ADM811ZARTZ-REEL7 , Microprocessor Supervisory Circuit in 4-Lead SOT-143 with DSP
ADM812LART-REEL ,Microprocessors Supervisory Circuit in 4-Lead SOT-143SPECIFICATIONSParameter Min Typ Max Units Test Conditions/CommentsSUPPLYVoltage 1.0 5.5 V T = 0

AD8061AR-AD8061ART-AD8062AR-AD8062ARM-AD8063AR
Low-Cost, 300 MHz Rail-to-Rail Amplifiers
REV.A
Low-Cost, 300 MHz
Rail-to-Rail Amplifiers
FEATURES
Low Cost
Single (AD8061), Dual (AD8062)
Single with Disable (AD8063)
Rail-to-Rail Output Swing
6 mV VOS
High Speed
300 MHz, –3 dB Bandwidth (G = 1)
800 V/ms Slew Rate
8.5 nV/√Hz @ 5 V
35 ns Settling Time to 0.1% with 1 V Step
Operates on 2.7 V to 8 V Supplies
Input Voltage Range = –0.2 V to +3.2 V with VS = 5
Excellent Video Specs (RL = 150 V, G = 2)
Gain Flatness 0.1 dB to 30 MHz
0.01% Differential Gain Error
0.048 Differential Phase Error
35 ns Overload Recovery
Low Power
6.8 mA/Amplifier Typical Supply Current
AD8063 400 mA when Disabled
Small Packaging
AD8061 Available in SOIC-8 and SOT-23-5
AD8062 Available in SOIC-8 and mSOIC
AD8063 Available in SOIC-8 and SOT-23-6
APPLICATIONS
Imaging
Photodiode Preamp
Professional Video and Cameras
Hand Sets
DVD/CD
Base Stations
Filters
A-to-D Driver
PRODUCT DESCRIPTION

The AD8061, AD8062, and AD8063 are rail-to-rail output volt-
age feedback amplifiers offering ease of use and low cost. They
have bandwidth and slew rate typically found in current feed-
back amplifiers. All have a wide input common-mode voltage
range and output voltage swing, making them easy to use on
single supplies as low as 2.7 V.
Despite being low cost, the AD8061, AD8062, and AD8063
provide excellent overall performance. For video applications
their differential gain and phase errors are 0.01% and 0.04°
into a 150 W load, along with 0.1 dB flatness out to 30 MHz.
Additionally, they offer wide bandwidth to 300 MHz along
with 800 V/ms slew rate.
FREQUENCY – MHz
NORMALIZED GAIN – dB
10010

Figure 1.Small Signal Response, RF = 0 W, 50W
The AD8061, AD8062, and AD8063 offer a typical low power
of 6.8 mA/amplifier, while being capable of delivering up tomA of load current. The AD8063 has a power-down disable
feature that reduces the supply current to 400 mA. These features
make the AD8063 ideal for portable and battery-powered
applications where size and power is critical.
CONNECTION DIAGRAMS
(Top Views)
SOIC-8 (R)SOT-23-6 (RT)
SOT-23-5 (RT)
+IN
+VS
–VS–IN
VOUT
SOIC-8 (R) and mSOIC (RM)
VOUT1
–IN1
+IN1
–VS
+VS
VOUT2
–IN2
+IN2+IN
+VS
–VS–IN
VOUTDISABLE
AD8061/AD8062/AD8063–SPECIFICATIONS
(TA = 258C, VS = 5 V, RL = 1 kV, VO = 1 V,
unless otherwise noted)

Specifications subject to change without notice.
AD8061/AD8062/AD8063
Specifications subject to change without notice.
(TA = 258C, VS = 3 V, RL = 1 kV, VO = 1 V, unless otherwise noted)SPECIFICATIONS
AD8061/AD8062/AD8063–SPECIFICATIONS
(TA = 258C, VS = 2.7 V, RL = 1 kV, VO = 1 V,
unless otherwise noted)

NOISE/DISTORTION PERFORMANCE
Specifications subject to change without notice.
CAUTION
ESD (electrostatic discharge) sensitive device. Electrostatic charges as high as 4000V readily
accumulate on the human body and test equipment and can discharge without detection. Although
the AD8061/AD8062/AD8063 features proprietary ESD protection circuitry, permanent damage
may occur on devices subjected to high energy electrostatic discharges. Therefore, proper ESD
precautions are recommended to avoid performance degradation or loss of functionality.
ABSOLUTE MAXIMUM RATINGS1

Supply Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 V
Internal Power Dissipation2
Plastic Package (N) . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.3 W
Small Outline Package (R) . . . . . . . . . . . . . . . . . . . . . . . 0.8 W
SOT-23-5 Package . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.5 W
SOT-23-6 Package . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.5 WSOIC Package . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.6 W
Input Voltage (Common-Mode) (–VS – 0.2 V) to (+VS – 1.8 V)
Differential Input Voltage . . . . . . . . . . . . . . . . . . . . . . . . –VS
Output Short Circuit Duration
. . . . . . . . . . . . . . . . . . . . . . Observe Power Derating Curves
Storage Temperature Range R, RM, SOT-23-5,
SOT-23-6 . . . . . . . . . . . . . . . . . . . . . . . . –65°C to +125°C
Operating Temperature Range . . . . . . . . . . . –40°C to +85°C
Lead Temperature Range (Soldering 10 sec) . . . . . . . . 300°C
NOTESStresses 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.Specification is for device in free air:
8-Lead SOIC Package: qJA = 160°C/W; qJC = 56°C/W
5-Lead SOT-23-5 Package: qJA = 240°C/W; qJC = 92°C/W
6-Lead SOT-23-6 Package: qJA = 230°C/W; qJC = 92°C/W
8-Lead mSOIC Package: qJA = 200°C/W; qJC = 44°C/W.
ORDERING GUIDE
MAXIMUM POWER DISSIPATION

The maximum power that can be safely dissipated by the AD806x
is limited by the associated rise in junction temperature. The
maximum safe junction temperature for plastic encapsulated
devices is determined by the glass transition temperature of the
plastic, approximately 150°C. Temporarily exceeding this limit
may cause a shift in parametric performance due to a change
in the stresses exerted on the die by the package. Exceeding a
junction temperature of 175°C for an extended period can result
in device failure. While the AD806x is internally short circuit
protected, this may not be sufficient to guarantee that the
maximum junction temperature (150°C) is not exceeded under
all conditions.
To ensure proper operation, it is necessary to observe the
maximum power derating curves.
AMBIENT TEMPERATURE – 8C
MAXIMUM POWER DISSIPATION – Watts
0.55040300–10–202010

Figure 2.Plot of Maximum Power Dissipation vs.
Temperature for AD8061/AD8062/AD8063
AD8061/AD8062/AD8063
LOAD CURRENT – mA10
VOLTAGE DIFFERENTIAL FROM V
1.230405060708090

Figure 3.Output Saturation Voltage vs. Load Current
SINGLE POWER SUPPLY – Voltage3
POWER SUPPLY CURRENT – mA
4567

Figure 4.ISUPPLY vs. VSUPPLY
FREQUENCY – MHz
NORMALIZED GAIN – dB
10010

Figure 5.Small Signal Response, RF = 0 W, 50W
FREQUENCY – MHz
NORMALIZED GAIN – dB
10010

Figure 6.Small Signal Frequency Response
FREQUENCY – MHz
NORMALIZED GAIN – dB
10010

Figure 7.Large Signal Frequency Response
FREQUENCY – MHz
NORMALIZED GAIN – dB
10010

Figure 8.Small Signal Frequency Response
FREQUENCY – MHz
NORMALIZED GAIN – dB
10010

Figure 9.Large Signal Frequency Response
FREQUENCY – MHz
NORMALIZED GAIN – dB
–0.4

Figure 10.0.1 dB Flatness
FREQUENCY – MHz1000
OPEN-LOOP GAIN – dB
PHASE – Degrees

Figure 11.Open-Loop Gain and Phase vs. Frequency,
VS = 5 V, RL = 1 kW
Figure 12.Harmonic Distortion for a 1 V p-p Signal vs.
Input Signal DC Bias
Figure 13.Harmonic Distortion for a 1 V p-p Output
Signal vs. Input Signal DC Bias
Figure 14.Harmonic Distortion vs. Output Signal
DC Bias
AD8061/AD8062/AD8063
Figure 15.Harmonic Distortion vs. Output Signal
Amplitude
Figure 16.Harmonic Distortion vs. Frequency
Figure 17.400 mV Pulse Response
1ST2ND3RD4TH5TH6TH7TH8TH9TH10TH11TH
DIFFERENTIAL PHASE –
Degrees
DIFFERENTIAL GAIN –
1ST2ND3RD4TH5TH6TH7TH8TH9TH10TH11TH

Figure 18.Differential Gain and Phase Error, G = 2,
NTSC Input Signal, RL = 1 kW, VS = 5 V
1ST2ND3RD4TH5TH6TH7TH8TH9TH10TH11TH
DIFFERENTIAL PHASE –
Degrees
DIFFERENTIAL GAIN –
1ST2ND3RD4TH5TH6TH7TH8TH9TH10TH11TH

Figure 19.Differential Gain and Phase Error, G = 2,
NTSC Input Signal, RL = 150 W, VS = 5 V
OUTPUT STEP AMPLITUDE – Volts
SLEW RATE – V/
700
200

Figure 20. Slew Rate vs. Output Step Amplitude
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