ADA4858-3ACPZ-R2 Analog Devices Inc, ADA4858-3ACPZ-R2 Datasheet - Page 15

ADA4858-3ACPZ-R2

Manufacturer Part Number

ADA4858-3ACPZ-R2

Description

IC, OP-AMP, 600MHZ, 600V/µs, LFCSP-16

Manufacturer

Analog Devices Inc

Datasheet

1.ADA4858-3ACPZ-R7.pdf (20 pages)

Specifications of ADA4858-3ACPZ-R2

Op Amp Type

High Speed

No. Of Amplifiers

Bandwidth

600MHz

Slew Rate

600V/Âµs

Supply Voltage Range

3V To 5.5V

Amplifier Case Style

LFCSP

No. Of Pins

Amplifier Type

Current Feedback

Number Of Circuits

-3db Bandwidth

600MHz

Current - Input Bias

8µA

Voltage - Input Offset

500µV

Current - Supply

19mA

Current - Output / Channel

21mA

Voltage - Supply, Single/dual (±)

3 V ~ 5.5 V

Operating Temperature

-40°C ~ 105°C

Mounting Type

Surface Mount

Package / Case

16-LFCSP

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Output Type

Gain Bandwidth Product

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Current page: 15 of 20
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DC RESTORE FUNCTION

Having a charge pump gives the ability to take an ac-coupled

input signal and restore its dc 0 V reference. The simplest way

of accomplishing this is to use the blanking interval and the H-

sync signal to set the 0 V reference. Use the H-sync to sample the

dc level during the blanking interval to charge a capacitor and

hold the charge during the video signal. Figure 43 shows the

schematic of the dc restored circuit.

The H-sync coming out of the video source can be either positive

or negative. This is why a polarity correction circuit is used to

produce only a positive going H-sync. The H-sync is fed to a

comparator that produces a high voltage if H-sync is negative and

a low voltage if the H-sync is positive. The H-sync is then fed to

an XOR with the output of the comparator. If the original H-sync

was negative, the output of the XOR is positive because of the

logic high coming from the comparator, causing the XOR to act

as an inverter. However, if the original H-sync is positive, it stays

the same because the output of the comparator is low and the

XOR acts as a buffer.

The result is a positive going H-sync triggering the MOSFET

during the blanking interval. This shorts the 4.7 nF capacitor to

ground, which causes it to charge up by the dc level of the current

signal. When the H-sync goes low, the MOSFET opens and the

capacitor holds the charge during the video signal, making the

output signal referenced to ground or 0 V level.

+5V

200kΩ

0.1µF

7.15kΩ

220µA

ADCMP371AKSZ

Figure 43. AC-Coupled Video Input with DC Restored Output

2.8kΩ

74AC86

Rev. A | Page 15 of 20

CLAMP AMPLIFIER

In some applications, a current output DAC driving a resistor

may not have a negative supply available. In such case, the YPbPr

video signal may be shifted up by 300 mV to avoid clamping the

sync tip. These applications require a signal dc clamp on the output

of the video driver to restore the dc level to 0 V reference. The

ADA4858-3 has a charge pump that allows the output to swing

negative; twice the sync tip (−600 mV) in G = 2 configuration.

Figure 44 shows the ADA4858-3 in a difference amplifier

configuration. The video signal is connected to the noninverting

side, and a dc bias of 600 mV is injected on the inverting side.

75Ω

DAC1

DAC2

DAC3

44.2kΩ

6.02kΩ

NTA4153

4.7nF

R10

R11

= 5V

ADA4860-1

ADA4858-3

= 5V

301Ω

Figure 44. Clamp Amp

301Ω

75Ω

301Ω

0.1µF

= 5V

301Ω

10µF

ADA4858-3

R12

75Ω

R13

75Ω

R14

75Ω

ADA4858-3ACPZ-R2 Analog Devices Inc, ADA4858-3ACPZ-R2 Datasheet - Page 15

ADA4858-3ACPZ-R2

Specifications of ADA4858-3ACPZ-R2

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