Table 4-7. straight binary mode a/d conversion val, Table 4-7, Straight binary mode a/d conversion values -33 – National Instruments AT-MIO-16X User Manual

Chapter 4

Register Map and Descriptions

© National Instruments Corporation

4-33

AT-MIO-16X User Manual

(0x8000 to 0x7FFF) when the ADC is in
bipolar mode.

The A/D conversion result can be returned from the ADC FIFO as a
two’s complement or straight binary value depending on the input mode
set by the CHAN_BIP bit in the configuration memory location for the
converted channel. If the analog input circuitry is configured for the
input range 0 to +10 V, straight binary format is implemented. Straight
binary format returns numbers between 0 and 65,535 (decimal) when
the ADC FIFO Register is read. If the analog input circuitry is
configured for the input ranges –10 to +10 V, two’s complement format
is used. Two’s complement format returns numbers between –32,768
and +32,767 (decimal) when the ADC FIFO Register is read. Table 4-7
shows input voltage versus A/D conversion value for straight binary
format and 0 to +10 V input range. Table 4-8 shows input voltage
versus A/D conversion value for two’s complement format for –10 to
+10 V input range.

To convert from the ADC FIFO value to the input voltage measured, use
the following formula:

V = ADC reading * 10 V

65,536

Gain

Table 4-7. Straight Binary Mode A/D Conversion Values

Input Voltage

(Gain = 1)

A/D Conversion Result

Range: 0 to 10 V

Decimal

Hex

0.0 V

0

0000

152.6

µ

V

1

0001

2.5 V

16,384

4000

5.0 V

32,768

8000

7.5 V

49,152

C000

9.999847 V

65,535

FFFF