MAX1415EUE Maxim Integrated, MAX1415EUE Datasheet - Page 24

MAX1415EUE

Manufacturer Part Number

MAX1415EUE

Description

Analog to Digital Converters - ADC

Manufacturer

Maxim Integrated

Datasheet

1.MAX1415EPE.pdf (36 pages)

Specifications of MAX1415EUE

Number Of Channels

Architecture

Sigma-Delta

Conversion Rate

0.5 KSPs

Resolution

16 bit

Input Type

Differential

Snr

Interface Type

QSPI, Serial (SPI, Microwire)

Operating Supply Voltage

2.7 V to 3.6 V

Maximum Operating Temperature

+ 85 C

Package / Case

TSSOP-16

Maximum Power Dissipation

842 mW

Minimum Operating Temperature

- 45 C

Number Of Converters

Voltage Reference

1.75 V

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The default state of the MAX1415/MAX1416 is to wait

for a write to the communications register. Any write or

read operation on the MAX1415/MAX1416 is a two-step

process. First, a command byte is written to the com-

munications register. This command selects the input

channel, the desired register for the next read or write

operation, and whether the next operation is a read or a

write. The second step is to read from or write to the

selected register. At the end of the data-transfer cycle,

the device returns to the default state. See the

Performing a Conversion section for examples.

If the serial communication is lost, write 32 ones to the ser-

ial interface to return the MAX1415/MAX1416 to the default

state. The registers are not reset after this operation.

16-Bit, Low-Power, 2-Channel,

Sigma-Delta ADCs

Figure 10. Register Summary

DOUT

*THE TEST REGISTER IS USED FOR FACTORY TESTING ONLY.

DIN

______________________________________________________________________________________

COMMUNICATIONS REGISTER

OFFSET REGISTER (24 BITS)

RS2 RS1 RS0

CLOCK REGISTER (8 BITS)

SETUP REGISTER (8 BITS)

DATA REGISTER (16 BITS)

TEST REGISTER (8 BITS)*

GAIN REGISTER (24 BITS)

DECODER

SELECT

The byte-wide communications register is bidirectional

so it can be written and read. The byte written to the

communications register indicates the next read or write

operation on the selected register, the power-down

mode, and the analog input channel (see

DRDY bit indicates the conversion status.

0/DRDY: (Default = 0) Communication-Start/Data-Ready

Bit. Write a 0 to the 0/DRDY bit to start a write operation to

the communications register. If 0/DRDY = 1, then the

device waits until a 0 is written to 0/DRDY before continu-

ing to load the remaining bits. For a read operation, the

0/DRDY bit shows the status of the conversion. The

DRDY bit returns a 0 if the conversion is complete and

the data is ready. DRDY returns a 1 if the new data has

been read and the next conversion is not yet complete. It

has the same value as the DRDY output pin.

RS2, RS1, RS0: (Default = 0, 0, 0) Register-Select Bits.

RS2, RS1, and RS0 select the next register to be

accessed as shown in Table 7.

R/W: (Default = 0) Read-/Write-Select Bit. Use this bit to

select if the next register access is a read or a write

operation. Set R/W = 0 to select a write operation, or set

R/W = 1 for a read operation on the selected register.

PD: (Default = 0) Power-Down Control Bit. Set PD = 1

to initiate power-down mode. Set PD = 0 to take the

device out of power-down mode. If the internal oscilla-

tor or external crystal/resonator is used and CLKDIS =

0, CLKOUT remains active during power-down mode to

provide a clock source for other devices in the system.

CH1, CH0: (Default = 0, 0) Channel-Select Bit. Write to

the CH1 and CH0 bits to select the conversion channel or

to access the calibration data shown in Table 8. The cali-

bration coefficients of a particular channel are stored in

one of the three offset and gain register pairs in Table 8.

Set CH1 = 1 and CH0 = 0 to evaluate the noise perfor-

mance of the part without external noise sources. In this

noise-evaluation mode, connect AIN1- to an external volt-

age within the allowable common-mode range.

The byte-wide setup register is bidirectional so it can

be written and read. The byte written to the setup regis-

ter sets the calibration modes, PGA gain, unipolar/bipo-

lar mode, buffer enable, and conversion start (see

Table 9).

MD1, MD0: (Default = 0, 0) Mode-Select Bits. See

Table 10 for normal operating mode, self-calibration,

zero-scale calibration, or full-scale calibration-mode

selection.

Communications Register

Setup Register

Table 6). The

MAX1415EUE Maxim Integrated, MAX1415EUE Datasheet - Page 24

MAX1415EUE

Specifications of MAX1415EUE

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