ADS7828E Datasheet, PDF(9/22 Page) Texas Instruments – 12-Bit, 8-Channel Sampling ANALOG-TO-DIGITAL CONVERTER with I2C Interface

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ADS7828E Datasheet, PDF (9/22 Pages) Texas Instruments – 12-Bit, 8-Channel Sampling ANALOG-TO-DIGITAL CONVERTER with I2C Interface

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THEORY OF OPERATION

The ADS7828 is a classic Successive Approximation Regis-

ter (SAR) A/D converter. The architecture is based on ca-

pacitive redistribution which inherently includes a sample-

and-hold function. The converter is fabricated on a 0.6Âµ

CMOS process.

The ADS7828 core is controlled by an internally generated

free-running clock. When the ADS7828 is not performing

conversions or being addressed, it keeps the A/D converter

core powered off, and the internal clock does not operate.

The simplified diagram of input and output for the ADS7828

is shown in Figure 1.

ANALOG INPUT

When the converter enters the hold mode, the voltage on the

selected CHx pin is captured on the internal capacitor array.

The input current on the analog inputs depends on the

conversion rate of the device. During the sample period, the

source must charge the internal sampling capacitor (typically

25pF). After the capacitor has been fully charged, there is no

further input current. The amount of charge transfer from the

analog source to the converter is a function of conversion rate.

REFERENCE

The ADS7828 can operate with an internal 2.5V reference or

an external reference. If a +5V supply is used, an external

+5V reference is required in order to provide full dynamic

range for a 0V to +VDD analog input. This external reference

can be as low as 50mV. When using a +2.7V supply, the

internal +2.5V reference will provide full dynamic range for a

0V to +VDD analog input.

As the reference voltage is reduced, the analog voltage

weight of each digital output code is reduced. This is often

referred to as the LSB (least significant bit) size and is equal

to the reference voltage divided by 4096. This means that

any offset or gain error inherent in the A/D converter will

appear to increase, in terms of LSB size, as the reference

voltage is reduced.

The noise inherent in the converter will also appear to increase

with lower LSB size. With a 2.5V reference, the internal noise

of the converter typically contributes only 0.32LSB peak-to-

peak of potential error to the output code. When the external

reference is 50mV, the potential error contribution from the

internal noise will be 50 times largerâ16LSBs. The errors due

to the internal noise are Gaussian in nature and can be

reduced by averaging consecutive conversion results.

DIGITAL INTERFACE

The ADS7828 supports the I2C serial bus and data transmis-

sion protocol, in all three defined modes: standard, fast, and

high-speed. A device that sends data onto the bus is defined

as a transmitter, and a device receiving data as a receiver.

The device that controls the message is called a âmaster.â

The devices that are controlled by the master are âslaves.â

The bus must be controlled by a master device that gener-

ates the serial clock (SCL), controls the bus access, and

generates the START and STOP conditions. The ADS7828

operates as a slave on the I2C bus. Connections to the bus

are made via the open-drain I/O lines SDA and SCL.

5â¦

REFIN/

VDD

0.1ÂµF REFOUT

CH0

SDA

CH1

SCL

CH2 ADS7828 A0

CH3

CH4

GND

CH5

CH6

CH7

COM

+ 1ÂµF to

10ÂµF

+2.7V to +3.6V

2kâ¦ 2kâ¦

+ 1ÂµF to

10ÂµF

Microcontroller

FIGURE 1. Simplified I/O of the ADS7828.

ADS7828

SBAS181C

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