ZHCSN80 july 2023 ADS131B24-Q1
PRODUCTION DATA
ADC2y provides the ability to compute offset and gain corrected conversion data using user-programmable offset and gain correction registers. The same calibration values are used for all sequence steps, however, the offset and gain correction factors are not applied when the internal temperature sensor is selected for measurement by MUX2y. As shown in Figure 9-8, the 16-bit offset correction value (OCAL2y[15:0]) is subtracted from the conversion data before being multiplied by the 16-bit gain correction factor (GCAL2y15:0]). Output data are rounded to the final resolution and clipped to +FS and –FS code values after the scaling operation. The offset and gain calibration coefficients must be stored in external nonvolatile memory and programmed into the offset and gain calibration registers each time the device powers up or resets because the ADS131B24-Q1 registers are volatile.
The 16-bit offset calibration value is provided in two's-complement format and programmed into the OCAL2y[15:0] bit field. Table 9-10 shows example offset calibration values. The LSB size of the offset calibration value is calculated using Equation 10 and Equation 11 depending on the selected gain setting.
OCAL2y[15:0] VALUE | APPLIED OFFSET CORRECTION |
---|---|
0010h | –16 LSB |
0001h | –1 LSB |
FFFFh | 1 LSB |
FFF0h | 16 LSB |
The 16-bit gain calibration value is provided in two's-complement format and programmed into the GCAL2y[15:0] bit field. One LSB of the gain calibration value equals a gain correction factor of 1/216 = 0.000015. Table 9-11 shows example gain calibration values.
GCAL2y[15:0] VALUE | APPLIED GAIN CORRECTION |
---|---|
7FFFh | 1.499985 |
0001h | 1.000015 |
0000h | 1 |
FFFFh | 0.999985 |
8000h | 0.5 |
The recommended calibration procedure is as follows: