Ad data format, Table 4-1: bipolar input range and, Converted digital codes – ADLINK DAQe-2502 User Manual
Page 32: Table 4-2: unipolar input range and
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Operation Theory
AD Data Format
The data format of the acquired 14-bit A/D data is coded in 2’s
complement. Table 4-1 and Table 4-2 lists the valid input ranges
and the ideal transfer characteristics.
Magnitude
Bipolar Input Range
Digital code
FSR
±10V
±5V
±2.5V
±1.25V
LSB
1120.78uV
610.39uV
305.19uV
152.60uV
FSR-1LSB
9.998779V 4.999389V 2.499694V 1.249847V
1FFF
Midscale + LSB 1120.78uV
610.39uV
305.19uV
152.60uV
0001
Midscale
0V
0V
0V
0V
0000
Midscale - LSB -1120.78uV -610.39uV -305.19uV -152.60uV
3FFF
-FSR
-10V
-5V
-2.5V
-1.25V
2000
Table 4-1: Bipolar Input Range and Converted Digital Codes
Magnitude
Unipolar Input Range
Digital code
FSR
0V ~ 10V
0 ~ +5V
0 ~ +2.5V
0 ~ +1.25V
LSB
610.39uV
305.19uV
152.60uV
76.3uV
FSR - LSB 4.999389V 2.499694V 1.249847V 1.249923V
1FFF
Midscale + LSB 5.000611V 2.500306V 1.250153V 0.625076V
0001
Midscale
5V
2.5V
1.25V
0.625V
0000
Midscale - LSB 4.999389V 2.499694V 1.249847V 1.249923V
3FFF
-FSR
0V
0V
0V
0V
2000
Table 4-2: Unipolar Input Range and Converted Digital Codes