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5962-9313201MPA |59629313201MPAADIN/a296avaiLow Power Video Op Amp with Disable
AD810ANADN/a82avaiLow Power Video Op Amp with Disable
AD810ARADIN/a57avaiLow Power Video Op Amp with Disable
AD810AR-REEL |AD810ARREELN/a40avaiLow Power Video Op Amp with Disable


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5962-9313201MPA-AD810AN-AD810AR-AD810AR-REEL
Low Power Video Op Amp with Disable
CONNECTION DIAGRAM
8-Pin Plastic Mini-DIP (N), SOIC (R)
and Cerdip (Q) Packages
OFFSET
NULLTOP VIEW
AD810DISABLES
OUTPUT
OFFSET
NULL
–IN
+INS

REV.ALow Power
Video Op Amp with Disable
FEATURES
High Speed
80 MHz Bandwidth (3 dB, G = +1)
75 MHz Bandwidth (3 dB, G = +2)
1000 V/ms Slew Rate
50 ns Settling Time to 0.1% (VO = 10 V Step)
Ideal for Video Applications
30 MHz Bandwidth (0.1 dB, G = +2)
0.02% Differential Gain
0.048 Differential Phase
Low Noise
2.9 nV/√Hz Input Voltage Noise
13 pA/√Hz Inverting Input Current Noise
Low Power
8.0 mA Supply Current max
2.1 mA Supply Current (Power-Down Mode)
High Performance Disable Function
Turn-Off Time 100 ns
Break Before Make Guaranteed
Input to Output Isolation of 64 dB (OFF State)
Flexible Operation
Specified for 65 V and 615 V Operation

62.9 V Output Swing Into a 150 V Load (VS = 65 V)
APPLICATIONS
Professional Video Cameras
Multimedia Systems
NTSC, PAL & SECAM Compatible Systems
Video Line Driver
ADC/DAC Buffer
DC Restoration Circuits
PRODUCT DESCRIPTION

The AD810 is a composite and HDTV compatible, current
feedback, video operational amplifier, ideal for use in systems
such as multimedia, digital tape recorders and video cameras.
The 0.1 dB flatness specification at bandwidth of 30 MHz
(G = +2) and the differential gain and phase of 0.02% and
0.04° (NTSC) make the AD810 ideal for any broadcast quality
video system. All these specifications are under load conditions
of 150 Ω (one 75 Ω back terminated cable).
The AD810 is ideal for power sensitive applications such as
video cameras, offering a low power supply current of 8.0 mA
max. The disable feature reduces the power supply current to
only 2.1 mA, while the amplifier is not in use, to conserve
power. Furthermore the AD810 is specified over a power supply
range of ±5 V to ±15 V.
The AD810 works well as an ADC or DAC buffer in video
systems due to its unity gain bandwidth of 80 MHz. Because the
AD810 is a transimpedance amplifier, this bandwidth can be
maintained over a wide range of gains while featuring a low
noise of 2.9 nV/√Hz for wide dynamic range applications.
Differential Gain and Phase vs. Supply Voltage1001000
CLOSED-LOOP GAIN – dB
PHASE SHIFT – Degrees
FREQUENCY – MHz

Closed-Loop Gain and Phase vs. Frequency, G = +2,
RL = 150, RF = 715 Ω
AD810–SPECIFICATIONS(@ TA = +258C and VS = 615 V dc, RL = 150 V unless otherwise noted)
ABSOLUTE MAXIMUM RATINGS1
Supply Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .±18 V
Internal Power Dissipation2 . . . . . . .Observe Derating Curves
Output Short Circuit Duration . . . .Observe Derating Curves
Common-Mode Input Voltage . . . . . . . . . . . . . . . . . . . . . .±VS
Differential Input Voltage . . . . . . . . . . . . . . . . . . . . . . . .±6 V
Storage Temperature Range
Plastic DIP . . . . . . . . . . . . . . . . . . . . . . . .–65°C to +125°C
Cerdip . . . . . . . . . . . . . . . . . . . . . . . . . . .–65°C to +150°C
Small Outline IC . . . . . . . . . . . . . . . . . . .–65°C to +125°C
Operating Temperature Range
AD810A . . . . . . . . . . . . . . . . . . . . . . . . . . .–40°C to +85°C
AD810S . . . . . . . . . . . . . . . . . . . . . . . . . .–55°C to +125°C
Lead Temperature Range (Soldering 60 sec) . . . . . . .+300°C
NOTESStresses above those listed under “Absolute Maximum Ratings” may cause
permanent damage to the device. This is a stress rating only and 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 raring conditions for extended periods may affect device reliability.8-Pin Plastic Package: θJA = 90°C/Watt; 8-Pin Cerdip Package: θJA = 110°C/Watt;
8-Pin SOIC Package: θJA = 150°C/Watt.
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 AD810 features ESD protection
circuitry, 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.
ORDERING GUIDE

Turn On Time
Min Disable Pin Current to
POWER SUPPLY
NOTESSee Analog Devices Military Data Sheet for 883B Specifications.Slew rate measurement is based on 10% to 90% rise time with the amplifier configured for a gain of –10.Voltage Swing is defined as useful operating range, not the saturation range.Disable guaranteed break before make.Turn On Time is defined with ±5 V supplies using complementary output CMOS to drive the disable pin.
Specifications subject to change without notice.
MAXIMUM POWER DISSIPATION

The maximum power that can be safely dissipated by the
AD810 is limited by the associated rise in junction temperature.
For the plastic packages, the maximum safe junction tempera-
ture is 145°C. For the cerdip package, the maximum junction
temperature is 175°C. If these maximums are exceeded momen-
tarily, proper circuit operation will be restored as soon as the die
temperature is reduced. Leaving the device in the “overheated”
condition for an extended period can result in device burnout.
To ensure proper operation, it is important to observe the
derating curves.
TOTAL POWER
DISSIPATION – Watts
AMBIENT TEMPERATURE – °C

Maximum Power Dissipation vs. Temperature
While the AD810 is internally short circuit protected, this may
not be sufficient to guarantee that the maximum junction
temperature is not exceeded under all conditions.
0.1µF+VS
–VS
SEE TEXT
AD810
AD810
MAGNITUDE OF THE OUTPUT VOLTAGE – ±Volts
SUPPLY VOLTAGE – ±Volts

Figure 1.Input Common-Mode Voltage Range vs.
Supply Voltage1010010k1k
OUTPUT VOLTAGE – Volts p-p
LOAD RESISTANCE – Ohms

Figure 3.Output Voltage Swing vs. Load Resistance
INPUT BIAS CURRENT – µA
JUNCTION TEMPERATURE – °C

Figure 5.Input Bias Current vs. Temperature
–Typical Characteristics
MAGNITUDE OF THE OUTPUT VOLTAGE – ±Volts
SUPPLY VOLTAGE – ±Volts

Figure 2.Output Voltage Swing vs. Supply
Figure 4.Supply Current vs. Junction Temperature
INPUT OFFSET VOLTAGE – mV
JUNCTION TEMPERATURE – °C
–10

Figure 6.Input Offset Voltage vs. Junction Temperature
250–60+140
+100+120+80+60+40+200–20
SHORT CIRCUIT CURRENT – mA
JUNCTION TEMPERATURE – °C

Figure 7.Short Circuit Current vs. Temperature
100k100M10M1M10k
0.1

CLOSED-LOOP OUTPUT RESISTANCE –
FREQUENCY – Hz

Figure 9.Closed-Loop Output Resistance vs. Frequency
100k1M100M10M
FREQUENCY – Hz
OUTPUT VOLTAGE – Volts p-p

Figure 11.Large Signal Frequency Response
120+140
+120+100+80+60+40+200–20
OUTPUT CURRENT – mA
JUNCTION TEMPERATURE – °C

Figure 8.Linear Output Current vs. Temperature
Figure 10.Output Resistance vs. Frequency,
Disabled State
Figure 12.Input Voltage and Current Noise vs. Frequency
AD810
–Typical Characteristics

Figure 14.Power Supply Rejection vs. Frequency
–1401001k10M1M100k10k
HARMONIC DISTORTION – dBc
FREQUENCY – Hz

Figure 16.Harmonic Distortion vs. Frequency (RL = 400 Ω)
Figure 18.Slew Rate vs. Supply Voltage
100100k100M10M1M10k
FREQUENCY – Hz
COMMON-MODE REJECTION – dB

Figure 13.Common-Mode Rejection vs. Frequency
1001k10M1M100k10k
HARMONIC DISTORTION – dBc
FREQUENCY – Hz

Figure 15.Harmonic Distortion vs. Frequency (RL = 100 Ω)
OUTPUT SWING FROM ±V TO 0V
SETTLING TIME – ns

Figure 17.Output Swing and Error vs. Settling Time
Figure 20.Small Signal Pulse Response, Gain = +1,
RF = 1 kΩ, RL = 150 Ω, VS = ±15 V100
1 1000
CLOSED-LOOP GAIN – dB
PHASE SHIFT – Degrees
FREQUENCY – MHz

Figure 22.Closed-Loop Gain and Phase vs. Frequency,
G= +1, RF = 1 kΩ for ±15 V, 910 Ω for ±5 V and ±2.5 V
Figure 24.–3 dB Bandwidth vs. Supply Voltage
G = +1, RL = 1 kΩ
AD810HP8130
PULSE
GENERATOR
–VS0.1µFVIN

Figure 19.Noninverting Amplifier Connection1001000
CLOSED-LOOP GAIN – dB
PHASE SHIFT – Degrees
FREQUENCY – MHz

Figure 21.Closed-Loop Gain and Phase vs. Frequency,
G= +1. RF = 1 kΩ for ±15 V, 910 Ω for ±5 V and ±2.5 V
–3dB BANDWIDTH – MHz
SUPPLY VOLTAGE – ±Volts

Figure 23.Bandwidth vs. Supply Voltage,
Gain = +1, RL = 150 Ω
AD810
–Typical Characteristics, Noninverting Connection

Figure 26.Large Signal Pulse Response, Gain = +10,
RF = 442 Ω, RL = 400 Ω, VS = ±15 V
Figure 28.Closed-Loop Gain and Phase vs. Frequency,
G = +10, RL = 1 kΩ
Figure 30.–3 dB Bandwidth vs. Supply Voltage,
Gain = +10, RL = 1 kΩ20nS
VIN

Figure 25.
RF = 442 Ω, RL = 150 Ω, VS = ±15 V1001000
CLOSED-LOOP GAIN – dB
PHASE SHIFT – Degrees
FREQUENCY – MHz

Figure 27.Closed-Loop Gain and Phase vs. Frequency,
G = +10, RL = 150 Ω
–3dB BANDWIDTH – MHz
SUPPLY VOLTAGE – ±Volts

Figure 29.–3 dB Bandwidth vs. Supply Voltage,
Gain = +10, RL = 150 Ω
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