ADC0806 National Semiconductor, ADC0806 Datasheet - Page 17

ADC0806

Manufacturer Part Number

ADC0806

Description

500 ns A/D Converter with S/H Function and Input Multiplexer

Manufacturer

National Semiconductor

Datasheet

1.ADC0806.pdf (19 pages)

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Applications Information

4.0 THE DIGITAL INPUT PINS

The ADC08060 has two digital input pins: The PD pin and

the Clock pin.

4.1 The PD Pin

The Power Down (PD) pin, when high, puts the ADC08060

into a low power mode where power consumption is reduced

to 1 mW. Output data is valid and accurate about 1 millisec-

ond after the PD pin is brought low.

The digital output pins retain the last conversion output code

when either the clock is stopped or the PD pin is high.

4.2 The ADC08060 Clock

Although the ADC08060 is tested and its performance is

guaranteed with a 60 MHz clock, it typically will function well

with clock frequencies from 20 MHz to 70 MHz.

Halting the clock will provide nearly as much power saving

as raising the PD pin high. Typical power consumption with a

stopped clock is 3 mW, compared to 1 mW when PD is high.

The digital outputs will remain in the same state as they were

before the clock was halted.

Once the clock is restored (or the PD pin is brought low),

there is a time of 2.5 clock cycles plus t

data is valid. However, because of the linear relationship

between total power consumption and clock frequency, the

part requires several microseconds after the clock is re-

started or substantially changed in frequency before the part

returns to its specified accuracy.

The low and high times of the clock signal can affect the

performance of any A/D Converter. Because achieving a

precise duty cycle is difficult, the ADC08060 is designed to

maintain performance over a range of duty cycles. While it is

specified and performance is guaranteed with a 50% clock

duty cycle and 60 Msps, ADC08060 performance is typically

maintained with clock high and low times of 6.7 ns, corre-

sponding to a clock duty cycle range of 40% to 50% with a

60 MHz clock.

The CLOCK line should be series terminated at the clock

source in the characteristic impedance of that line. If the

clock line is longer than

where t

of the signal along the trace, the CLOCK pin should be a.c.

terminated with a series RC to ground such that the resistor

value is equal to the characteristic impedance of the clock

line and the capacitor value is

where t

"L" is the line length and Z

of the clock line. This termination should be located as close

as possible to, but within one centimeter of, the ADC08060

clock pin. Typical t

material. For FR-4 board material, the value of C becomes

is the clock rise time and t

is the signal propagation rate down the clock line,

is about 150 ps/inch on FR-4 board

is the characteristic impedance

is the propagation rate

before the output

(Continued)

where L is the length of the clock line in inches.

5.0 LAYOUT AND GROUNDING

Proper grounding and proper routing of all signals are es-

sential to ensure accurate conversion. A combined analog

and digital ground plane should be used.

Since digital switching transients are composed largely of

high frequency components, total ground plane copper

weight will have little effect upon the logic-generated noise

because of the skin effect. Total surface area is more impor-

tant than is total ground plane volume. Capacitive coupling

between the typically noisy digital circuitry and the sensitive

analog circuitry can lead to poor performance that may seem

impossible to isolate and remedy. The solution is to keep the

analog circuitry well separated from the digital circuitry.

High power digital components should not be located on or

near a straight line between the ADC (or any linear compo-

nent) and the power supply area as the resulting common

return current path could cause fluctuation in the analog

“ground” return of the ADC.

Generally, analog and digital lines should cross each other at

90˚ to avoid getting digital noise into the analog path. In high

frequency systems, however, avoid crossing analog and

digital lines altogether. Clock lines should be isolated from

ALL other lines, analog AND digital. Even the generally

accepted 90˚ crossing should be avoided as even a little

coupling can cause problems at high frequencies. Best per-

formance at high frequencies is obtained with a straight

signal path.

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 and ground should be connected

to a very clean point in the analog ground plane.

FIGURE 5. Layout Example

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ADC0806 National Semiconductor, ADC0806 Datasheet - Page 17

ADC0806

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