MAX1242 Datasheet, PDF(6/12 Page) Maxim Integrated Products – +2.7V to %.25V, Low-Power, 10-Bit Serial ADCs in SO-8

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MAX1242 Datasheet, PDF (6/12 Pages) Maxim Integrated Products – +2.7V to %.25V, Low-Power, 10-Bit Serial ADCs in SO-8

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+2.7V to +5.25V, Low-Power, 10-Bit

Serial ADCs in SO-8

______________________________________________________________Pin Description

NAME

FUNCTION

VDD

Positive Supply Voltage: +2.7V to +5.25V

AIN

Sampling Analog Input, 0V to VREF range

Three-Level Shutdown Input. Pulling SHDN low shuts the MAX1242/MAX1243 down to 15ÂµA (max)

SHDN

supply current. Both MAX1242 and MAX1243 are fully operational with either SHDN high or floating.

For the MAX1242, pulling SHDN high enables the internal reference, and letting SHDN float disables

the internal reference and allows for the use of an external reference.

Reference Voltage for Analog-to-Digital Conversion. Internal 2.5V reference output for MAX1242;

REF

bypass with a 4.7ÂµF capacitor. External reference voltage input for MAX1243, or for MAX1242 with the

internal reference disabled. Bypass REF with a minimum of 0.1ÂµF when using an external reference.

GND Analog and Digital Ground

DOUT Serial-Data Output. Data changes state at SCLKâs falling edge. High impedance when CS is high.

Active-Low Chip Select. Initiates conversions on the falling edge. When CS is high, DOUT is high

impedance.

SCLK Serial-Clock Input. SCLK clocks data out at rates up to 2.1MHz.

_______________Detailed Description

Converter Operation

The MAX1242/MAX1243 use an input track/hold (T/H)

and successive-approximation register (SAR) circuitry

to convert an analog input signal to a digital 10-bit out-

put. Figure 3 shows the MAX1242/MAX1243 in their

simplest configuration. The MAX1242/MAX1243 convert

input signals in the 0V to VREF range in 9Âµs, including

T/H acquisition time. The MAX1242âs internal reference

is trimmed to 2.5V, while the MAX1243 requires an

external reference. Both devices accept external refer-

ence voltages from 1.0V to VDD. The serial interface

requires only three digital lines (SCLK, CS, and DOUT)

and provides an easy interface to microprocessors

(ÂµPs).

The MAX1242/MAX1243 have two modes: normal and

shutdown. Pulling SHDN low shuts the device down and

reduces supply current below 10ÂµA (VDD â¤ 3.6V), while

pulling SHDN high or leaving it open puts the devices

into operational mode. A conversion is initiated by

pulling CS low. The conversion result is available at

DOUT in unipolar serial format. The serial-data stream

consists of a high bit, signaling the end of conversion

(EOC), followed by the data bits (MSB first).

Analog Input

Figure 4 illustrates the sampling architecture of the ana-

log-to-digital converterâs (ADCâs) comparator. The full-

scale input voltage is set by the voltage at REF.

Track/Hold

In track mode, the analog signal is acquired and stored

in the internal hold capacitor. In hold mode, the T/H

switch opens and maintains a constant input to the

ADCâs SAR section.

During acquisition, the analog input AIN charges

capacitor CHOLD. Bringing CS low ends the acquisition

interval. At this instant, the T/H switches the input side

of CHOLD to GND. The retained charge on CHOLD repre-

sents a sample of the input, unbalancing node ZERO at

the comparatorâs input.

In hold mode, the capacitive digital-to-analog converter

(DAC) adjusts during the remainder of the conversion

cycle to restore node ZERO to 0V within the limits of 10-

bit resolution. This action is equivalent to transferring a

charge from CHOLD to the binary-weighted capacitive

DAC, which in turn forms a digital representation of the

analog input signal. At the conversionâs end, the input

side of CHOLD switches back to AIN, and CHOLD

charges to the input signal again.

The time required for the T/H to acquire an input signal

is a function of how quickly its input capacitance is

charged. If the input signalâs source impedance is high,

the acquisition time lengthens, and more time must be

allowed between conversions. The acquisition time,

tACQ, is the maximum time the device takes to acquire

the signal and the minimum time needed for the signal

to be acquired. Acquisition time is calculated by:

tACQ = 7(RS + RIN) x 16pF

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