ADS8341 Datasheet, PDF(11/20 Page) Texas Instruments – 16-Bit, 4-Channel Serial Output Sampling ANALOG-TO-DIGITAL CONVERTER

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ADS8341 Datasheet, PDF (11/20 Pages) Texas Instruments – 16-Bit, 4-Channel Serial Output Sampling ANALOG-TO-DIGITAL CONVERTER

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THEORY OF OPERATION

The ADS8341 is a classic Successive Approximation Reg-

ister (SAR) A/D converter. The architecture is based on

capacitive redistribution which inherently includes a sample-

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

CMOS process.

The basic operation of the ADS8341 is shown in Figure 1.

The device requires an external reference and an external

clock. It operates from a single supply of 2.7V to 5.25V.

The external reference can be any voltage between 500mV

and +VCC. The value of the reference voltage directly sets

the input range of the converter. The average reference

input current depends on the conversion rate of the

ADS8341.

The analog input to the converter is differential and is

provided via a four-channel multiplexer. The input can be

provided in reference to a voltage on the COM pin (which

is generally ground) or differentially by using two of the four

input channels (CH0 - CH3). The particular configuration is

selectable via the digital interface.

ANALOG INPUT

Figure 2 shows a block diagram of the input multiplexer on

the ADS8341. The differential input of the converter is

derived from one of the four inputs in reference to the COM

pin or two of the four inputs. Table I and Table II show the

relationship between the A2, A1, A0, and SGL/DIF control

bits and the configuration of the analog multiplexer. The

control bits are provided serially via the DIN pin, see the

Digital Interface section of this data sheet for more details.

When the converter enters the hold mode, the voltage

difference between the +IN and âIN inputs, as shown in

Figure 2, is captured on the internal capacitor array. The

voltage on the âIN input is limited between â0.2V and

1.25V, allowing the input to reject small signals that are

common to both the +IN and âIN input. The +IN input has

a range of â0.2V to +VCC + 0.2V.

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 (typi-

cally 25pF). After the capacitor has been fully charged, there

is no further input current. The rate of charge transfer from

the analog source to the converter is a function of conver-

sion rate.

CH0 CH1 CH2 CH3 COM

+IN

âIN

+IN

âIN

+IN

âIN

+IN

âIN

TABLE I. Single-Ended Channel Selection (SGL/DIF HIGH).

CH0 CH1 CH2 CH3 COM

+IN âIN

âIN +IN

+IN

âIN

+IN

TABLE II. Differential Channel Control (SGL/DIF LOW).

CH0

CH1

CH2

CH3

A2-A0

(Shown 001B)

+IN

Converter

âIN

COM

SGL/DIF

(Shown HIGH)

FIGURE 2. Simplified Diagram of the Analog Input.

1ÂµF +

10ÂµF

0.1ÂµF

+2.7V to +5V

Single-ended

or differential

analog inputs

External

VREF

0.1ÂµF

1ÂµF

ADS8341

1 +VCC

2 CH0

3 CH1

4 CH2

5 CH3

6 COM

7 SHDN

8 VREF

DCLK 16

CS 15

DIN 14

BUSY 13

DOUT 12

GND 11

GND 10

+VCC 9

Serial/Conversion Clock

Chip Select

Serial Data In

Serial Data Out

FIGURE 1. Basic Operation of the ADS8341.

ADS8341

SBAS136D

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