ADUC834 Analog Devices, ADUC834 Datasheet - Page 19
ADUC834
Manufacturer Part Number
ADUC834
Description
Precision Analog Microcontroller: 1MIPS 8052 MCU + 62kB Flash + 16/24-Bit ADC + 12-Bit DAC
Manufacturer
Analog Devices
Datasheet
1.ADUC834.pdf
(80 pages)
Specifications of ADUC834
Mcu Core
8052
Mcu Speed (mips)
1
Sram (bytes)
2304Bytes
Gpio Pins
34
Adc # Channels
4
Other
PWM
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ADC0CON (Primary ADC Control Register) and ADC1CON (Auxiliary ADC Control Register)
The ADC0CON and ADC1CON SFRs are used to configure the primary and auxiliary ADC for reference and channel selection,
unipolar or bipolar coding and, in the case of the primary ADC, for range (the auxiliary ADC operates on a fixed input range of ± V
ADC0CON
SFR Address
Power-On Default Value 07H
Bit Addressable
Bit
7
6
5
4
3
2
1
0
Bit
7
6
5
4
3
2
1
0
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. A
Name
–––
XREF0
CH1
CH0
UNI0
RN2
RN1
RN0
Name
–––
XREF1
ACH1
ACH0
UNI1
–––
–––
–––
Primary ADC Control SFR
D2H
No
Primary ADC External Reference Select Bit.
Primary ADC Range Bits.
Written by the user to select the primary ADC input range as follows:
RN2
Description
Reserved for Future Use
Set by user to enable the primary ADC to use the external reference via REFIN(+)/REFIN(–).
Cleared by user to enable the primary ADC to use the internal band gap reference (V
Primary ADC Channel Selection Bits
Written by the user to select the differential input pairs used by the primary ADC as follows:
CH1
0
0
1
1
Primary ADC Unipolar Bit.
Set by user to enable unipolar coding, i.e., zero differential input will result in 000000H output.
Cleared by user to enable bipolar coding, i.e., zero differential input will result in 800000H output.
0
0
0
0
1
1
1
1
Description
Reserved for Future Use
Auxiliary ADC External 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 Channel Selection Bits.
Written by the user to select the single-ended input pins used to drive the auxiliary ADC as follows:
ACH1
0
0
1
1
Auxiliary ADC Unipolar 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
Reserved for Future Use
Reserved for Future Use
Table VII. ADC1CON SFR Bit Designations
Table VI. ADC0CON SFR Bit Designations
CH0
0
1
0
1
RN1
0
0
1
1
0
0
1
1
ACH0
0
1
0
1
Positive Input
AIN1
AIN3
AIN2
AIN3
RN0
0
1
0
1
0
1
0
1
Positive Input
AIN3
AIN4
Temp Sensor
AIN5
–19–
Selected Primary ADC Input Range (V
± 20 mV (0 mV–20 mV in Unipolar Mode)
± 40 mV (0 mV–40 mV in Unipolar Mode)
± 80 mV (0 mV–80 mV in Unipolar Mode)
± 160 mV
± 320 mV
± 640 mV
± 1.28 V (0 V–1.28 V in Unipolar Mode)
± 2.56 V (0 V–2.56 V in Unipolar Mode)
ADC1CON
SFR Address
Power-On Default Value
Bit Addressable
Negative Input
AIN2
AIN4
AIN2 (Internal Short)
AIN2
Negative Input
AGND
AGND
AGND (Temp Sensor routed to the ADC input)
AGND
(0 mV–160 mV in Unipolar Mode)
(0 mV–320 mV in Unipolar Mode)
(0 mV–640 mV in Unipolar Mode)
Auxiliary ADC Control SFR
D3H
00H
No
REF
= 2.5 V)
ADuC834
REF
= 1.25 V).
REF
).
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