AD9985KSTZ-140 Analog Devices Inc, AD9985KSTZ-140 Datasheet - Page 11

IC,Data Acquisition Signal Conditioner,3-CHANNEL,8-BIT,CMOS,QFP,80PIN,PLASTIC

AD9985KSTZ-140

Manufacturer Part Number

AD9985KSTZ-140

Description

IC,Data Acquisition Signal Conditioner,3-CHANNEL,8-BIT,CMOS,QFP,80PIN,PLASTIC

Manufacturer

Analog Devices Inc

Datasheet

1.AD9985KSTZ-110.pdf (32 pages)

Specifications of AD9985KSTZ-140

Applications

Video

Interface

Serial Port

Voltage - Supply

2.2 V ~ 3.45 V

Package / Case

80-LQFP

Mounting Type

Surface Mount

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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DESIGN GUIDE

GENERAL DESCRIPTION

The AD9985 is a fully integrated solution for capturing analog

RGB signals and digitizing them for display on flat-panel

monitors or projectors. The circuit is ideal for providing a

computer interface for HDTV monitors or as the front end to

high performance video scan converters. Implemented in a high

performance CMOS process, the interface can capture signals

with pixel rates up to 110 MHz.

The AD9985 includes all necessary input buffering, signal dc

restoration (clamping), offset and gain (brightness and contrast)

adjustment, pixel clock generation, sampling phase control, and

output data formatting. All controls are programmable via a

2-wire serial interface. Full integration of these sensitive analog

functions makes system design straightforward and less

sensitive to the physical and electrical environment.

With a typical power dissipation of only 500 mW and an

operating temperature range of 0°C to 70°C, the device requires

no special environmental considerations.

DIGITAL INPUTS

All digital inputs on the AD9985 operate to 3.3 V CMOS levels.

However, all digital inputs are 5 V tolerant. Applying 5 V to

them will not cause any damage.

INPUT SIGNAL HANDLING

The AD9985 has three high impedance analog input pins for

the Red, Green, and Blue channels. They will accommodate

signals ranging from 0.5 V to 1.0 V p-p.

Signals are typically brought onto the interface board via a

DVI-I connector, a 15-pin D connector, or via BNC connectors.

The AD9985 should be located as close as practical to the input

connector. Signals should be routed via matched-impedance

traces (normally 75 Ω) to the IC input pins.

At that point the signal should be resistively terminated (75 Ω

to the signal ground return) and capacitively coupled to the

AD9985 inputs through 47 nF capacitors. These capacitors form

part of the dc restoration circuit.

In an ideal world of perfectly matched impedances, the best

performance can be obtained with the widest possible signal

bandwidth. The ultrawide bandwidth inputs of the AD9985

(300 MHz) can track the input signal continuously as it moves

from one pixel level to the next, and digitize the pixel during a

long, flat pixel time. In many systems, however, there are

mismatches, reflections, and noise, which can result in excessive

ringing and distortion of the input waveform. This makes it

more difficult to establish a sampling phase that provides good

image quality. It has been shown that a small inductor in series

with the input is effective in rolling off the input bandwidth

Rev. 0 | Page 11 of 32

slightly and providing a high quality signal over a wider range

of conditions. Using a Fair-Rite #2508051217Z0 High Speed

Signal Chip Bead inductor in the circuit of Figure 3 gives good

results in most applications.

HSYNC, VSYNC INPUTS

The interface also takes a horizontal sync signal, which is used

to generate the pixel clock and clamp timing. This can be either

a sync signal directly from the graphics source, or a preproc-

essed TTL or CMOS level signal.

The Hsync input includes a Schmitt trigger buffer for immunity

to noise and signals with long rise times. In typical PC-based

graphic systems, the sync signals are simply TTL-level drivers

feeding unshielded wires in the monitor cable. As such, no

termination is required.

SERIAL CONTROL PORT

The serial control port is designed for 3.3 V logic. If there are

5 V drivers on the bus, these pins should be protected with

150 Ω series resistors placed between the pull-up resistors and

the input pins.

OUTPUT SIGNAL HANDLING

The digital outputs are designed and specified to operate from a

3.3 V power supply (V

as 2.5 V for compatibility with other 2.5 V logic.

CLAMPING

RGB Clamping

To properly digitize the incoming signal, the dc offset of the

input must be adjusted to fit the range of the on-board A/D

converters.

Most graphics systems produce RGB signals with black at

ground and white at approximately 0.75 V. However, if sync

signals are embedded in the graphics, the sync tip is often at

ground and black is at 300 mV. Then white is at approximately

1.0 V. Some common RGB line amplifier boxes use emitter-

follower buffers to split signals and increase drive capability.

This introduces a 700 mV dc offset to the signal, which must be

removed for proper capture by the AD9985.

The key to clamping is to identify a portion (time) of the signal

when the graphic system is known to be producing black. An

offset is then introduced which results in the A/D converters

producing a black output (code 00h) when the known black

INPUT

RGB

Figure 3. Analog Input Interface Circuit

). They can also work with a V

75Ω

47nF

AIN

AD9985

as low

AD9985KSTZ-140 Analog Devices Inc, AD9985KSTZ-140 Datasheet - Page 11

AD9985KSTZ-140

Specifications of AD9985KSTZ-140

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