AD9200LQFP-EVAL AD [Analog Devices], AD9200LQFP-EVAL Datasheet - Page 23

AD9200LQFP-EVAL

Manufacturer Part Number

AD9200LQFP-EVAL

Description

Complete 10-Bit, 20 MSPS, 80 mW CMOS A/D Converter

Manufacturer

AD [Analog Devices]

Datasheet

1.AD9200LQFP-EVAL.pdf (24 pages)

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GROUNDING AND LAYOUT RULES

As is the case for any high performance device, proper ground-

ing and layout techniques are essential in achieving optimal

performance. The analog and digital grounds on the AD9200

have been separated to optimize the management of return

currents in a system. Grounds should be connected near the

ADC. It is recommended that a printed circuit board (PCB) of

at least four layers, employing a ground plane and power planes,

be used with the AD9200. The use of ground and power planes

offers distinct advantages:

1. The minimization of the loop area encompassed by a signal

2. The minimization of the impedance associated with ground

3. The inherent distributed capacitor formed by the power plane,

These characteristics result in both a reduction of electro-

magnetic interference (EMI) and an overall improvement in

performance.

It is important to design a layout that prevents noise from cou-

pling onto the input signal. Digital signals should not be run in

parallel with the input signal traces and should be routed away

from the input circuitry. Separate analog and digital grounds

should be joined together directly under the AD9200 in a solid

ground plane. The power and ground return currents must be

carefully managed. A general rule of thumb for mixed signal

layouts dictates that the return currents from digital circuitry

should not pass through critical analog circuitry.

REV. E

and its return path.

and power paths.

PCB insulation and ground plane.

–23–

DIGITAL OUTPUTS

Each of the on-chip buffers for the AD9200 output bits

(D0–D9) is powered from the DRVDD supply pins, separate

from AVDD. The output drivers are sized to handle a variety

of logic families while minimizing the amount of glitch energy

generated. In all cases, a fan-out of one is recommended to keep

the capacitive load on the output data bits below the specified

20 pF level.

For DRVDD = 5 V, the AD9200 output signal swing is compat-

ible with both high speed CMOS and TTL logic families. For

TTL, the AD9200 on-chip, output drivers were designed to

support several of the high speed TTL families (F, AS, S). For

applications where the clock rate is below 20 MSPS, other TTL

families may be appropriate. For interfacing with lower voltage

CMOS logic, the AD9200 sustains 20 MSPS operation with

DRVDD = 3 V. In all cases, check your logic family data sheets

for compatibility with the AD9200 Digital Specification table.

THREE-STATE OUTPUTS

The digital outputs of the AD9200 can be placed in a high

impedance state by setting the THREE-STATE pin to HIGH.

This feature is provided to facilitate in-circuit testing or evaluation.

AD9200

AD9200LQFP-EVAL AD [Analog Devices], AD9200LQFP-EVAL Datasheet - Page 23

AD9200LQFP-EVAL

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