AMC7812SPAPR Datasheet, PDF(66/92 Page) Texas Instruments – 12-Bit Analog Monitoring and Control Solution with Multichannel ADC, DACs, and Temperature Sensors

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AMC7812SPAPR Datasheet, PDF (66/92 Pages) Texas Instruments – 12-Bit Analog Monitoring and Control Solution with Multichannel ADC, DACs, and Temperature Sensors

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AMC7812

SBAS513E â JANUARY 2011 â REVISED SEPTEMBER 2013

AMC CONFIGURATION REGISTER 0 (Read/Write, Address = 4Ch, Default = 2000h)

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Table 16. AMC Configuration Register 0

BIT

NAME

DEFAULT R/W

DESCRIPTION

R Reserved. Writing to this bit causes no change. Reading this bit returns '0'.

CMODE

ADC Conversion Mode Bit. This bit selects between the two operating conversion modes

(direct or auto).

CMODE = '0': Direct mode. The analog inputs specified in the ADC Channel Registers are

converted sequentially (see the ADC Channel Registers) one time. When one set of

R/W conversions is complete, the ADC is idle and waits for a new trigger.

CMODE = '1': Auto mode. The analog inputs specified in the AMC Channel Registers are

converted sequentially and repeatedly (see the ADC Channel Registers). When one set of

conversions is complete, the ADC multiplexer returns to the first channel and repeats the

process. Repetitive conversions continue until the CMODE bit is cleared ('0').

ICONV

Internal conversion bit.

R/W Set this bit to '1' to start the ADC conversion internally. The bit is automatically cleared ('0')

after the ADC conversion starts.

ILDAC

Load DAC bit. Set this bit to '1' to synchronously load the DAC Data Registers, which are

programmed for synchronous update mode (SLDAC-n = 1). The AMC7812 updates the

R/W

DAC Latch only if the ILDAC bit is set ('1'), thereby eliminating any unnecessary glitch. Any

DAC channels that have not been accessed are not reloaded. When the DAC Latch is

updated, the corresponding output changes to the new level immediately. This bit is

cleared ('0') after the DAC Data Register is updated.

10 ADC-REF-INT

ADC VREF select bit.

When this bit = '0', the internal reference buffer is off, and the external reference drives the

R/W ADC.

When this bit = '1', the internal buffer is on and the internal reference drives the ADC. Note

that a compensation capacitor is required.

EN-ALARM

Enable ALARM pin bit.

R/W When this bit = '0', the ALARM pin is disabled.

When this bit = '1', the ALARM pin is enabled.

R Reserved. Writing to this bit causes no change. Reading this bit returns '0'.

DAVF

ADC Data available flag bit. For Direct mode only. Always cleared (set to '0') in Auto mode.

DAVF = '1': The ADC conversions are complete and new data are available.

DAVF = '0': The ADC conversion is in progress (data are not ready) or the ADC is in Auto

mode.

In Direct mode, the DAVF bit sets the DAV pin. DAV goes low when DAVF = '1', and goes

R high when DAVF = '0'.

In Auto mode, DAVF is always cleared to '0'. However, a 1Âµs pulse (active low) appears on

the DAV pin when the last input specified in the ADC Channel Registers is converted.

DAVF is cleared to '0' in one of three ways: (1) reading the ADC Data Register, (2) starting

a new ADC conversion, or (3) writing '0' to this bit. Reading the Status Register does not

clear this bit.

GALR

Global alarm bit. This bit is the OR function of all individual alarm bits of the Status

R Register. This bit is set ('1') when any alarm condition occurs, and remains '1' until the

Status Register is read. This bit is cleared ('0') after reading the Status Register.

R Reserved. Writing to this bit causes no change. Reading this bit returns '0'.

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