EVAL-ADUC836QS AD [Analog Devices], EVAL-ADUC836QS Datasheet - Page 19

EVAL-ADUC836QS

Manufacturer Part Number

EVAL-ADUC836QS

Description

MicroConverter, Dual 16-Bit ADCs with Embedded 62 kB Flash MCU

Manufacturer

AD [Analog Devices]

Datasheet

1.EVAL-ADUC836QS.pdf (80 pages)

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ADC0CON (Primary ADC Control Register) and ADC1CON (Auxiliary ADC Control Register)

The ADC0CON and ADC1CON SFRs are used to conﬁ gure the primary and auxiliary ADC for reference and channel selection,

unipolar or bipolar coding and, in the case of the primary ADC, range (the auxiliary ADC operates on a ﬁ xed input range of ±V

ADC0CON

SFR Address

Power-On Default Value

Bit Addressable

Bit

NOTES

1. When the temperature sensor is selected, user code must select internal reference via XREF1 bit above and clear the UNI1 bit (ADC1CON.3) to select bipolar coding.

2. The temperature sensor is factory calibrated to yield conversion results 8000H at 0°C.

3. A +1°C change in temperature will result in a +1 LSB change in the ADC1H Register ADC conversion result.

REV. 0

ACH1

ACH0

Name

–––

XREF0

CH1

CH0

UNI0

RN2

RN1

RN0

Name

–––

XREF1

UNI1

–––

Written by the user to select the dif fer en tial input pairs used by the primary ADC as follows:

Written by the user to select the primary ADC input range as follows:

Description

Reserved for Future Use

Primary ADC Ex ter nal Reference Select Bit.

Set by user to enable the primary ADC to use the external reference via RE FIN(+)/REFIN(–).

Cleared by user to enable the primary ADC to use the internal band gap ref er ence (V

Primary ADC Chan nel Selection Bits.

CH1

Primary ADC Un i po lar Bit.

Set by user to enable unipolar coding, i.e., zero differential input will result in 000000H out put.

Cleared by user to enable bipolar coding, i.e., zero differential input will result in 800000H out put.

Primary ADC Range Bits.

RN2

Description

Reserved for Future Use

Auxiliary ADC Ex ter nal Reference Bit.

Set by user to enable the auxiliary ADC to use the external reference via REFIN(+)/REFIN(–).

Cleared by user to enable the auxiliary ADC to use the internal band gap reference.

Auxiliary ADC Chan nel Selection Bits.

Written by the user to select the single-ended input pins used to drive the auxiliary ADC as fol lows:

ACH1

Auxiliary ADC Un i po lar Bit.

Set by user to enable unipolar coding, i.e., zero input will result in 0000H output.

Cleared by user to enable bipolar coding, i.e., zero input will result in 8000H output.

Reserved for Future Use

Primary ADC Control SFR

D2H

07H

CH0

RN1

ACH0

Temp Sensor

Positive Input

AIN1

AIN3

AIN2

AIN3

RN0

Positive Input

AIN3

AIN4

AIN5

Table VII. ADC1CON SFR Bit Designations

Table VI. ADC0CON SFR Bit Designations

Selected Primary ADC Input Range (V

±20 mV

±40 mV

±80 mV

±160 mV

±320 mV

±640 mV

±1.28 V

±2.56 V

AIN2

AIN4

AIN2 (Internal Short)

AIN2

AGND

Negative Input

AGND (Temp Sensor routed to the ADC input)

–19–

ADC1CON

SFR Ad dress

Power-On Default Value

Bit Addressable

(0 mV–20 mV in Unipolar Mode)

(0 mV–40 mV in Unipolar Mode)

(0 mV–80 mV in Unipolar Mode)

(0 mV–160 mV in Unipolar Mode)

(0 mV–320 mV in Unipolar Mode)

(0 mV–640 mV in Unipolar Mode)

(0 V–1.28 V in Unipolar Mode)

(0 V–2.56 V in Unipolar Mode)

REF

= 2.5 V)

Auxiliary ADC Con trol SFR

D3H

00H

REF

= 1.25 V).

ADuC836

REF

EVAL-ADUC836QS AD [Analog Devices], EVAL-ADUC836QS Datasheet - Page 19

EVAL-ADUC836QS

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