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AD9631ADN/a168avaiUltralow Distortion, High Speed Op Amp, Stable at Gain of 1
AD9632ADN/a5avaiUltralow Distortion, High Speed Op Amp, Stable at Gain of 2


AD9631 ,Ultralow Distortion, High Speed Op Amp, Stable at Gain of 1CHARACTERISTICS S LOAD V V AD9631A AD9632AParameter Conditions Min Typ Max Min ..
AD9631AN ,Ultralow Distortion, Wide Bandwidth Voltage Feedback Op Ampscharacteristics position the AD9631/AD9632 ideally forDifferential Amplifiersdriving flash as well ..
AD9631AR ,Ultralow Distortion, Wide Bandwidth Voltage Feedback Op AmpsCHARACTERISTICSOutput Voltage Range, R = 150 Ω±3.2 ±3.9 ±3.2 ±3.9 VLOutput Current 70 70 mAOutput R ..
AD9631AR-REEL , Ultralow Distortion, Wide Bandwidth Voltage Feedback Op Amps
AD9632 ,Ultralow Distortion, High Speed Op Amp, Stable at Gain of 2Specifications subject to change without notice.–2– REV. BAD9631/AD96321ABSOLUTE MAXIMUM RATINGS MA ..
AD9632AN ,Ultralow Distortion, Wide Bandwidth Voltage Feedback Op AmpsCHARACTERISTICSInput Resistance 500 500 kΩInput Capacitance 1.2 1.2 pFInput Common-Mode Voltage Ran ..
ADS802U ,12-Bit/ 10MHz Sampling ANALOG-TO-DIGITAL CONVERTERPIN CONFIGURATION PIN DESCRIPTIONSPIN DESIGNATOR DESCRIPTIONTop View SO1 GND Ground2 B1 Bit 1, Most ..
ADS802UG4 ,12-Bit, 10 MSPS ADC SE/Diff inputs. Internal References, pin compatible to ADS800/1 28-SOIC -40 to 85ADS802UADS802SBAS039B – MAY 1995 – REVISED FEBRUARY 200512-Bit, 10MHz SamplingANALOG-TO-DIGITAL CON ..
ADS803E ,12-Bit/ 5MHz Sampling ANALOG-TO-DIGITAL CONVERTERMaximum Ratings”may cause permanent damage to the device. Exposure to absolute maximumESD damage ca ..
ADS803E/1KG4 ,12-Bit, 5 MSPS ADC Int/Ext Ref., flexible I/P between 2 and 5Vpp, Out of Range Indicator, pin comp. 28-SSOP -40 to 85ELECTRICAL CHARACTERISTICSAt T = full specified temperature range, V = +5V, specified input range = ..
ADS803EG4 ,12-Bit, 5 MSPS ADC Int/Ext Ref., flexible I/P between 2 and 5Vpp, Out of Range Indicator, pin comp. 28-SSOP -40 to 85PIN CONFIGURATION PIN DESCRIPTIONSPIN DESIGNATOR DESCRIPTIONTop View SSOP1 OVR Over-Range Indicator ..
ADS804E ,12-Bit/ 10MHz Sampling ANALOG-TO-DIGITAL CONVERTERPIN DESCRIPTIONSPIN CONFIGURATIONPIN DESIGNATOR DESCRIPTIONTop View SSOP1 OVR Over-Range Indicator ..


AD9631-AD9632
Ultralow Distortion, High Speed Op Amp, Stable at Gain of 1
Ultralow Distortion, Wide Bandwidth
Voltage Feedback Op Amps
a
REV.B
FEATURES
Wide Bandwidth
AD9631, G = +1
AD9632, G = +2
Small Signal
320 MHz
250 MHz
Large Signal (4 V p-p)
175 MHz
180 MHz
Ultralow Distortion (SFDR), Low Noise
–113 dBc typ @ 1 MHz
–95 dBc typ @ 5 MHz
–72 dBc typ @ 20 MHz
46 dBm Third Order Intercept @ 25 MHz
7.0 nV/÷HzHzHzHzHz Spectral Noise Density
High Speed
Slew Rate 1300 V/�s
Settling 16 ns to 0.01%, 2 V Step

�3 V to �5 V Supply Operation
17 mA Supply Current
APPLICATIONS
ADC Input Driver
Differential Amplifiers
IF/RF Amplifiers
Pulse Amplifiers
Professional Video
DAC Current to Voltage
Baseband and Video Communications
Pin Diode Receivers
Active Filters/Integrators/Log Amps
GENERAL DESCRIPTION

The AD9631 and AD9632 are very high speed and wide
bandwidth amplifiers. They are an improved performance
alternative to the AD9621 and AD9622. The AD9631 is
unity gain stable. The AD9632 is stable at gains of two or
greater. Using a voltage feedback architecture, the AD9631/
AD9632’s exceptional settling time, bandwidth, and low
distortion meet the requirements of many applications that
previously depended on current feedback amplifiers. Its
classical op amp structure works much more predictably in
many designs.
8-Lead Plastic Mini-DIP (N), CERDIP (Q),
and SOIC (R) Packages

A proprietary design architecture has produced an amplifier that
combines many of the best characteristics of both current feedback
and voltage feedback amplifiers. The AD9631 and AD9632
exhibit exceptionally fast and accurate pulse response (16 ns to
0.01%) as well as extremely wide small signal and large signal
bandwidth and ultralow distortion. The AD9631 achieves –72 dBc
at 20 MHz and 320 MHz small signal and 175 MHz large sig-
nal bandwidths.
These characteristics position the AD9631/AD9632 ideally for
driving flash as well as high resolution ADCs. Additionally, the
balanced high impedance inputs of the voltage feedback archi-
tecture allow maximum flexibility when designing active filters.
The AD9631 is offered in industrial (–40�C to +85�C) and mili-
tary (–55�C to +125�C) temperature ranges and the AD9632 in
industrial. Industrial versions are available in plastic DIP and
SOIC, and military versions are packaged in CERDIP.
Figure 1.AD9631 Harmonic Distortion vs.
Frequency, G = +1
AD9631/AD9632–SPECIFICATIONS
HARMONIC/NOISE PERFORMANCE
INPUT CHARACTERISTICS
ELECTRICAL CHARACTERISTICS(±VS = ±5 V; RLOAD = 100 W; AV = 1 (AD9631); AV = 2 (AD9632), unless otherwise noted.)
AD9631/AD9632
ABSOLUTE MAXIMUM RATINGS1

SupplyVoltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12.6V
Voltage Swing � Bandwidth Product . . . . . . . .550 V � MHz
InternalPowerDissipation2
PlasticPackage (N) . . . . . . . . . . . . . . . . . . . . . . . . . . .1.3W
SmallOutlinePackage (R) . . . . . . . . . . . . . . . . . . . . . .0.9W
Input Voltage (Common Mode) . . . . . . . . . . . . . . . . . . . .±VS
DifferentialInputVoltage . . . . . . . . . . . . . . . . . . . . . . .±1.2V
Output Short Circuit Duration
. . . . . . . . . . . . . . . . . .Observe Power Derating Curves
Storage Temperature Range N, R . . . . . . . . .–65�C to +125�C
Operating Temperature Range (A Grade) . . . .–40�C to +85�C
Lead Temperature Range (Soldering10sec) . . . . . . . . .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: qJA = 90�C/W
8-Lead SOIC Package: qJA = 140�C/W
METALLIZATION PHOTO

Dimensions shown in inches and (millimeters)
Connect Substrate to –VS
MAXIMUM POWER DISSIPATION

The maximum power that can be safely dissipated by these
devices is limited by the associated rise in junction temperature.
The maximum safe junction temperature for plastic encapsu-
lated devices is determined by the glass transition temperature
of the plastic, approximately 150�C. Exceeding this limit tem-
porarily 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 AD9631 and AD9632 are 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.
Figure 2.Maximum Power Dissipation
vs. Temperature
ORDERING GUIDE

*N = Plastic DIP; Q = CERDIP; R= SOIC.
CAUTION

ESD (electrostatic discharge) sensitive device. Electrostatic charges as high as 4000V readily
AD9631/AD9632–Typical Performance Characteristics
TPC 1.AD9631 Noninverting Configuration, G = +1
TPC 2.AD9631 Large Signal Transient Response;
VO = 4 V p-p, G = +1, RF = 250 W
TPC 3.AD9631 Small Signal Transient Response;
VO = 400 mV p-p, G = +1, RF = 140 W
TPC 4.AD9631 Inverting Configuration, G = –1
TPC 5. AD9631 Large Signal Transient Response;
VO = 4 V p-p, G = –1, RF = RIN = 267 W
TPC 6.AD9631 Small Signal Transient Response;
VO = 400 mV p-p, G = –1, RF = RIN = 267 W
TPC 7. AD9632 Noninverting Configuration, G = +2
TPC 8. AD9632 Large Signal Transient Response;
VO = 4 V p-p, G = +2, RF = RIN = 422 W
TPC 9. AD9632 Small Signal Transient Response;
VO = 400 mV p-p, G = +2, RF = RIN = 274 W
TPC 10. AD9632 Inverting Configuration, G= –1
TPC 11. AD9632 Large Signal Transient Response;
VO = 4 V p-p, G = –1, RF = RIN = 422 W, RT = 56.2 W
TPC 12. AD9632 Small Signal Transient Response;
VO = 400 mV p-p, G = –1, RF = RIN = 267 W, RT = 61.9 W
AD9631/AD9632

TPC 13.AD9631 Small Signal Frequency Response,
G = +1

TPC 14.AD9631 0.1 dB Flatness, N Package
(for R Package Add 20 W to RF)
TPC 15.AD9631 Open-Loop Gain and Phase Margin vs.
Frequency, RL = 100 W
TPC 16.AD9631 Small Signal –3 dB Bandwidth vs. RF
TPC 17.AD9631 Large Signal Frequency Response,
G = +1
TPC 18.AD9631 Small Signal Frequency Response,
G = –1
TPC 19.AD9631 Harmonic Distortion vs. Frequency,
RL = 500 W
TPC 20.AD9631 Harmonic Distortion vs. Frequency,
RL = 100 W
TPC 21.AD9631 Third Order Intercept vs. Frequency
TPC 22.AD9631 Differential Gain and Phase Error,
G = +2, RL = 150 W
TPC 23.AD9631 Short-Term Settling Time, 2 V Step,
RL = 100 W
TPC 24.AD9631 Long-Term Settling Time, 2 V Step,
RL = 100 W
AD9631/AD9632

TPC 25.AD9632 Small Signal Frequency Response,
G = +2

TPC 26.AD9632 0.1 dB Flatness, N Package
(for R Package Add 20 W to RF)
TPC 27.AD9632 Open-Loop Gain and Phase Margin
vs. Frequency, RL = 100 W
TPC 28.AD9632 Small Signal –3 dB Bandwidth
vs. RF, RIN

TPC 29.AD9632 Large Signal Frequency Response,
G = +2

TPC 30.AD9632 Small Signal Frequency Response,
G = –1
TPC 31.AD9632 Harmonic Distortion vs. Frequency,
RL = 500 W
TPC 32.AD9632 Harmonic Distortion vs. Frequency,
RL = 100 W
TPC 33.AD9632 Third Order Intercept vs. Frequency
TPC 34.AD9632 Differential Gain and Phase Error
G = +2, RL = 150 W
TPC 35.AD9632 Short-Term Settling Time, 2 V Step,
RL = 100 W
TPC 36.AD9632 Long-Term Settling Time, 2 V Step,
RL = 100 W
AD9631/AD9632
TPC 37.AD9631 Noise vs. Frequency
TPC 38.AD9631 PSRR vs. Frequency
TPC 39.AD9631 CMRR vs. Frequency
TPC 40.AD9632 Noise vs. Frequency
TPC 41.AD9632 PSRR vs. Frequency
TPC 42.AD9632 CMRR vs. Frequency
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