MAX11358B Datasheet, PDF(39/70 Page) Maxim Integrated Products – 16-Bit Data-Acquisition System with ADC, DAC, UPIOs, RTC, Voltage Monitors, and Temp Sensor

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MAX11358B Datasheet, PDF (39/70 Pages) Maxim Integrated Products – 16-Bit Data-Acquisition System with ADC, DAC, UPIOs, RTC, Voltage Monitors, and Temp Sensor

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16-Bit Data-Acquisition System with ADC, DAC,

UPIOs, RTC, Voltage Monitors, and Temp Sensor

MUX Register (Power-On State: 0000 0000)

S (ADR0)

MSB

MUXP3

MUXP2

MUXP1

MUXP0

MUXN3

MUXN2

MUXN1

LSB

MUXN0

The MUX register configures the positive and negative

mux inputs and can start an ADC conversion.

S (ADR0): Conversion start bit. The S bit is the LSB of

the MUX register address byte. S = 1 resets the regis-

ters inside the ADC filter and initiates a conversion or

calibration. The conversion begins immediately after

the eighth MUX register data bit, when S = 1 and when

writing to the MUX register. This allows the new MUX

and ADC register settings to take effect simultaneously

for a new conversion, if STRT = 0 during the last write

to the ADC register. If the S bit is asserted and the

command is a read from the MUX register, the conver-

sion starts immediately after the S bit (ADR0) is clocked

in by the rising edge of SCLK.

Read the MUX register with S = 1 for the fastest method

of initiating a conversion because only 8 bits are

required. The subsequent MUX register read is valid,

but can be aborted by raising CS with no harmful side

effects. The initial conversion requires four conversion

cycles for valid output data. If CONT = 0 and S = 1, the

ADC stops after a single conversion and holds the

result in the DATA register. If CONT = 1 and S = 1, the

ADC performs continuous conversions at the rate

Table 8. Selecting the Positive MUX Inputs

POSITIVE MUX

INPUT

AIN1

SNO1

FBA

SCM1

FBB

SNC1

IN1-

TEMP+

REF

AGND

Open

X = Donât care.

MUXP3

MUXP2

MUXP1

MUXP0

specified by the RATE<2:0> bits until CONT deasserts

or ADCE deasserts, powering down the ADC. When a

conversion initiates using the S bit, the STRT bit asserts

and deasserts automatically after the initial conversion

completes. Writing to the MUX register with S = 0 caus-

es the MUX settings to change immediately and the

ADC continues in its prior state with its settings unaf-

fected. When the ADC is powered down, MUX inputs

are open.

MUXP<3:0>: MUX positive input bits. These four bits

select one of 10 inputs from the positive MUX to go to the

positive output of the MUX as shown in Table 8. Any

writes to the MUX register take effect immediately once

the LSB (MUXN0) is clocked by the rising edge of SCLK.

MUXN<3:0> MUX negative input bits. These four bits

select one of 10 inputs from the negative MUX to go to

the negative output of the MUX as shown in Table 9. Any

writes to the MUX register take effect immediately once

the LSB (MUXN0) is clocked by the rising edge of SCLK.

The DATA register contains the data from the most

recently completed conversion.

The OFFSET CAL register contains the 24-bit data of

the most recently completed offset calibration.

Table 9. Selecting the Negative MUX Inputs

NEGATIVE

MUX INPUT

TEMP-

SNO2

OUTA

SCM2

OUTB

SNC2

OUT1

AIN2

REF

AGND

Open

X = Donât care.

MUXN3 MUXN2 MUXN1 MUXN0

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