MAX1227_12 Datasheet, PDF(10/22 Page) Maxim Integrated Products – 12-Bit 300ksps ADCs with FIFO,Temp Sensor, Internal Reference

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MAX1227_12 Datasheet, PDF (10/22 Pages) Maxim Integrated Products – 12-Bit 300ksps ADCs with FIFO,Temp Sensor, Internal Reference

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12-Bit 300ksps ADCs with FIFO,

Temp Sensor, Internal Reference

Converter Operation

The MAX1227/MAX1229/MAX1231 ADCs use a fully dif-

ferential, successive-approximation register (SAR) con-

version technique and an on-chip T/H block to convert

temperature and voltage signals into a 12-bit digital

result. Both single-ended and differential configurations

are supported, with a unipolar signal range for single-

ended mode and bipolar or unipolar ranges for differ-

ential mode.

Input Bandwidth

The ADCâs input-tracking circuitry has a 1MHz small-

signal bandwidth, so it is possible to digitize high-

speed transient events and measure periodic signals

with bandwidths exceeding the ADCâs sampling rate by

using undersampling techniques. Anti-alias prefiltering

of the input signals is necessary to avoid high-frequen-

cy signals aliasing into the frequency band of interest.

Analog Input Protection

Internal ESD protection diodes clamp all pins to VDD

and GND, allowing the inputs to swing from (GND -

0.3V) to (VDD + 0.3V) without damage. However, for

accurate conversions near full scale, the inputs must

not exceed VDD by more than 50mV or be lower than

GND by 50mV. If an off-channel analog input voltage

exceeds the supplies, limit the input current to 2mA.

3-Wire Serial Interface

The MAX1227/MAX1229/MAX1231 feature a serial

interface compatible with SPI/QSPI and MICROWIRE

devices. For SPI/QSPI, ensure the CPU serial interface

runs in master mode so it generates the serial clock

signal. Select the SCLK frequency of 10MHz or less,

and set clock polarity (CPOL) and phase (CPHA) in the

ÂµP control registers to the same value. The MAX1227/

MAX1229/MAX1231 operate with SCLK idling high or

low, and thus operate with CPOL = CPHA = 0 or CPOL

= CPHA = 1. Set CS low to latch input data at DIN on

the rising edge of SCLK. Output data at DOUT is

updated on the falling edge of SCLK. Bipolar true dif-

ferential results and temperature sensor results are

available in twoâs complement format, while all others

are in binary.

Serial communication always begins with an 8-bit input

data byte (MSB first) loaded from DIN. Use a second

byte, immediately following the setup byte, to write to

the unipolar mode or bipolar mode registers (see

Tables 1, 3, 4, and 5). A high-to-low transition on CS ini-

tiates the data input operation. The input data byte and

the subsequent data bytes are clocked from DIN into

the serial interface on the rising edge of SCLK.

Tables 1â7 detail the register descriptions. Bits 5 and 4,

CKSEL1 and CKSEL0, respectively, control the clock

modes in the setup register (see Table 3). Choose

between four different clock modes for various ways to

start a conversion and determine whether the acquisi-

tions are internally or externally timed. Select clock

mode 00 to configure CNVST/AIN_ to act as a conver-

sion start and use it to request the programmed, inter-

nally timed conversions without tying up the serial bus.

In clock mode 01, use CNVST to request conversions

one channel at a time, controlling the sampling speed

without tying up the serial bus. Request and start inter-

nally timed conversions through the serial interface by

writing to the conversion register in the default clock

mode 10. Use clock mode 11 with SCLK up to 4.8MHz

for externally timed acquisitions to achieve sampling

rates up to 300ksps. Clock mode 11 disables scanning

and averaging. See Figures 4â7 for timing specifica-

tions and how to begin a conversion.

These devices feature an active-low, end-of-conversion

output. EOC goes low when the ADC completes the last-

requested operation and is waiting for the next input

data byte (for clock modes 00 and 10). In clock mode

01, EOC goes low after the ADC completes each

requested operation. EOC goes high when CS or CNVST

goes low. EOC is always high in clock mode 11.

Single-Ended/Differential Input

The MAX1227/MAX1229/MAX1231 use a fully differen-

tial ADC for all conversions. The analog inputs can be

configured for either differential or single-ended con-

versions by writing to the setup register (see Table 3).

Single-ended conversions are internally referenced to

GND (see Figure 3).

In differential mode, the T/H samples the difference

between two analog inputs, eliminating common-mode

DC offsets and noise. IN+ and IN- are selected from

the following pairs: AIN0/AIN1, AIN2/AIN3, AIN4/AIN5,

AIN6/AIN7, AIN8/AIN9, AIN10/AIN11, AIN12/AIN13,

and AIN14/AIN15. AIN0âAIN7 are available on the

MAX1227, MAX1229, and MAX1231. AIN8âAIN11 are

only available on the MAX1229 and MAX1231.

AIN12âAIN15 are only available on the MAX1231. See

Tables 2â5 for more details on configuring the inputs.

For the inputs that can be configured as CNVST or an

analog input, only one can be used at a time. For the

inputs that can be configured as REF- or an analog

input, the REF- configuration excludes the analog input.

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