AD8023ARZ-REEL Analog Devices Inc, AD8023ARZ-REEL Datasheet - Page 10

AD8023ARZ-REEL

Manufacturer Part Number

AD8023ARZ-REEL

Description

SOIC TRPL HIGH OUTPUT CURRENT VIDEO AMP

Manufacturer

Analog Devices Inc

Datasheet

1.AD8023ARZ.pdf (11 pages)

Specifications of AD8023ARZ-REEL

Applications

Current Feedback

Number Of Circuits

-3db Bandwidth

125MHz

Slew Rate

1200 V/µs

Current - Supply

7mA

Current - Output / Channel

70mA

Voltage - Supply, Single/dual (±)

4.2 V ~ 15 V, ±2.1 V ~ 7.5 V

Mounting Type

Surface Mount

Package / Case

14-SOIC (0.154", 3.90mm Width)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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AD8023

Overload Recovery

The three important overload conditions are: input common-

mode voltage overdrive, output voltage overdrive, and input

current overdrive. When configured for a low closed-loop gain,

this amplifier will quickly recover from an input common-mode

voltage overdrive; typically in under 25 ns. When configured for

a higher gain, and overloaded at the output, the recovery time

will also be short. For example, in a gain of +10, with 50%

overdrive, the recovery time of the AD8023 is about 20 ns (see

Figure 31). For higher overdrive, the response is somewhat

slower. For 100% overdrive, (in a gain of +10), the recovery

time is about 80 ns.

100

200

300

≥500

Figure 32. Pulse Response Driving a Large Load Capacitor.

Table II. Recommended Feedback and Series Resistors vs.

Capacitive Load and Gain

– pF

= 300 pF, G = +3, R

Figure 31. Circuit for Driving a Capacitive Load

– Ohms

AD8023

= 750 Ω , R

–V

0.1 F

1.0 F

= 16.9 Ω , R

G = 2

– Ohms

= 10 k Ω

G ≥ 3

–10–

As noted in the warning under Maximum Power Dissipation, a

high level of input overdrive in a high noninverting gain circuit

can result in a large current flow in the input stage. Though this

current is internally limited to about 30 mA, its effect on the

total power dissipation may be significant.

Disable Mode Operation

Pulling the voltage on any one of the Disable pins about 1.6 V up

from the negative supply will put the corresponding amplifier

into a disabled, powered down, state. In this condition, the

amplifier’s quiescent current drops to about 1.3 mA, its output

becomes a high impedance, and there is a high level of isolation

from input to output. In the case of a gain of two line driver for

example, the impedance at the output node will be about the

same as for a 1.5 kΩ resistor (the feedback plus gain resistors)

in parallel with a 12 pF capacitor.

Leaving the Disable pin disconnected (floating) will leave the

corresponding amplifier operational, in the enabled state. The

input impedance of the disable pin is about 25 kΩ in parallel

with a few picofarads. When driven to 0 V, with the negative

supply at –7.5 V, about 100 µA flows into the disable pin.

When the disable pins are driven by complementary output

CMOS logic, on a single 5 V supply, the disable and enable

times are about 50 ns. When operated on dual supplies, level

shifting will be required from standard logic outputs to the

Disable pins. Figure 33 shows one possible method, which

results in a negligible increase in switching time.

The AD8023’s input stages include protection from the large

differential input voltages that may be applied when disabled.

Internal clamps limit this voltage to about ±3 V. The high input to

output isolation will be maintained for voltages below this limit.

Figure 34. Level Shifting to Drive Disable Pins on Dual

Supplies

Figure 33. 50% Overload Recovery, Gain = +10,

= 300 Ω , R

HIGH => AMPLIFIER ENABLED

LOW => AMPLIFIER DISABLED

= 1 k Ω , V

15k

10k

= ± 7.5 V)

+7.5V

–7.5V

TO DISABLE PIN

REV. A

AD8023ARZ-REEL Analog Devices Inc, AD8023ARZ-REEL Datasheet - Page 10

AD8023ARZ-REEL

Specifications of AD8023ARZ-REEL

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