adc12l066civyx National Semiconductor Corporation, adc12l066civyx Datasheet - Page 25

adc12l066civyx

Manufacturer Part Number

adc12l066civyx

Description

12-bit, 66 Msps, 450 Mhz Bandwidth A/d Converter With Internal Sample-and-hold

Manufacturer

National Semiconductor Corporation

Datasheet

1.ADC12L066CIVYX.pdf (27 pages)

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Applications Information

weight will have little effect upon the logic-generated noise.

This is because of the skin effect. Total surface area is more

important than is total ground plane volume.

Generally, analog and digital lines should cross each other at

90˚ to avoid crosstalk. To maximize accuracy in high speed,

high resolution systems, however, avoid crossing analog and

digital lines altogether. It is important to keep clock lines as

short as possible and isolated from ALL other lines, including

Be especially careful with the layout of inductors. Mutual

inductance can change the characteristics of the circuit in

which they are used. Inductors should not be placed side by

side, even with just a small part of their bodies beside each

other.

The analog input should be isolated from noisy signal traces

to avoid coupling of spurious signals into the input. Any

external component (e.g., a filter capacitor) connected be-

tween the converter’s input pins and ground or to the refer-

ence input pin and ground should be connected to a very

clean point in the ground plane.

Figure 7 gives an example of a suitable layout. All analog

circuitry (input amplifiers, filters, reference components, etc.)

should be placed in the analog area of the board. All digital

circuitry and I/O lines should be placed in the digital area of

the board. The ADC12L066 should be between these two

areas. Furthermore, all components in the reference circuitry

and the input signal chain that are connected to ground

should be connected together with short traces and enter the

ground plane at a single, quiet point. All ground connections

should have a low inductance path to ground.

6.0 DYNAMIC PERFORMANCE

To achieve the best dynamic performance, the clock source

driving the CLK input must be free of jitter. Isolate the ADC

clock from any digital circuitry with buffers, as with the clock

tree shown in Figure 8.

As mentioned in Section 5.0, it is good practice to keep the

ADC clock line as short as possible and to keep it well away

FIGURE 7. Example of a Suitable Layout

(Continued)

other digital lines. Even the generally accepted 90˚ crossing

should be avoided with the clock line as even a little coupling

can cause problems at high frequencies. This is because

other lines can introduce jitter into the clock line, which can

lead to degradation of SNR. Also, the high speed clock can

introduce noise into the analog chain.

Best performance at high frequencies and at high resolution

is obtained with a straight signal path. That is, the signal path

through all components should form a straight line wherever

possible.

from any other signals. Other signals can introduce jitter into

the clock signal, which can lead to reduced SNR perfor-

mance, and the clock can introduce noise into other lines.

Even lines with 90˚ crossings have capacitive coupling, so

try to avoid even these 90˚ crossings of the clock line.

FIGURE 8. Isolating the ADC Clock from other Circuitry

7.0 COMMON APPLICATION PITFALLS

Driving the inputs (analog or digital) beyond the power

supply rails. For proper operation, all inputs should not go

more than 100 mV beyond the supply rails (more than

100 mV below the ground pins or 100 mV above the supply

pins). Exceeding these limits on even a transient basis may

with a Clock Tree

20032816

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20032817

adc12l066civyx National Semiconductor Corporation, adc12l066civyx Datasheet - Page 25

adc12l066civyx

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