ADS8472I BURR-BROWN [Burr-Brown Corporation], ADS8472I Datasheet - Page 25

ADS8472I

Manufacturer Part Number

ADS8472I

Description

16-BIT, 1-MSPS, PSEUDO-BIPOLAR, FULLY DIFFERENTIAL INPUT, MICROPOWER SAMPLING ANALOG-TO-DIGITAL CONVERTER WITH PARALLEL INTERFACE, REFERENCE

Manufacturer

BURR-BROWN [Burr-Brown Corporation]

Datasheet

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Once the device is reset, all output latches are cleared (set to zeroes) and the BUSY signal is brought low. A

new sampling period is started at the falling edge of the BUSY signal immediately after the instant of the internal

reset.

LAYOUT

For optimum performance, care must be taken with the physical layout of the ADS8472 circuitry.

As the ADS8472 offers single-supply operation, it is often used in close proximity with digital logic,

microcontrollers, microprocessors, and digital signal processors. The more digital logic present in the design and

the higher the switching speed, the more difficult it is to achieve good performance from the converter.

The basic SAR architecture is sensitive to glitches or sudden changes on the power supply, reference, ground

connections and digital inputs that occur just prior to latching the output of the analog comparator. Thus, driving

any single conversion for an n-bit SAR converter, there are at least n windows in which large external transient

voltages can affect the conversion result. Such glitches might originate from switching power supplies, nearby

digital logic, or high power devices.

The degree of error in the digital output depends on the reference voltage, layout, and the exact timing of the

external event.

On average, the ADS8472 draws very little current from an external reference as the reference voltage is

internally buffered. If the reference voltage is external and originates from an op amp, make sure that it can drive

the bypass capacitor or capacitors without oscillation. A 0.1- F capacitor is recommended from pin 13 (REFIN)

directly to pin 12 (REFM). REFM and AGND must be shorted on the same ground plane under the device.

The AGND and BDGND pins should be connected to a clean ground point. In all cases, this should be the

analog ground. Avoid connections which are too close to the grounding point of a microcontroller or digital signal

processor. If required, run a ground trace directly from the converter to the power supply entry point. The ideal

layout consists of an analog ground plane dedicated to the converter and associated analog circuitry.

As with the AGND connections, +VA should be connected to a 5-V power supply plane or trace that is separate

from the connection for digital logic until they are connected at the power entry point. Power to the ADS8472

should be clean and well bypassed. A 0.1- F ceramic bypass capacitor should be placed as close to the device

as possible. See

recommended. In some situations, additional bypassing may be required, such as a 100- F electrolytic capacitor

or even a Pi filter made up of inductors and capacitors-all designed to essentially low-pass filter the 5-V supply,

removing the high frequency noise.

Pin pairs that require shortest path to decoupling capacitors

Pins that require no decoupling

Issue a CONVST when CS is low and the internal convert state is high. The falling edge of CONVST starts a

reset.

Issue a CS (select the device) while the internal convert state is high. The falling edge of CS causes a reset.

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POWER SUPPLY PLANE

Table 3

SUPPLY PINS

Table 3. Power Supply Decoupling Capacitor Placement

for the placement of the capacitor. In addition, a 1- F to 10- F capacitor is

Submit Documentation Feedback

(7,8), (9,10), (16,17), (20,21), (22,23), (25,26)

24, 26

CONVERTER ANALOG SIDE

SLAS514 – DECEMBER 2006

(36,37)

(1,2)

DIGITAL SIDE

CONVERTER

ADS8472

ADS8472I BURR-BROWN [Burr-Brown Corporation], ADS8472I Datasheet - Page 25

ADS8472I

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