NI 4070/4072 Calibration Procedure 44 ni.com
23. Output 0 Ω from the calibrator without external sense or 2-wire
compensation.
24. Call niDMM_CalAdjustGain with the following parameters:
•Mode = NIDMM_VAL_2_WIRE_RES
•Range = 10e6
•Input Resistance = NIDMM_VAL_RESISTANCE_NA
•Expected Value = the display on the calibrator for 0Ω
25. Call niDMM_CalAdjustOffset with the following parameters:
•Mode = NIDMM_VAL_2_WIRE_RES
•Range = 10e6
•Input Resistance = NIDMM_VAL_RESISTANCE_NA
26. Disconnect the Fluke 5440 cable from the NI 4070/4072.
27. Call niDMM_CalAdjustMisc with Type set to
NIDMM_EXTCAL_MISCCAL_ZINT.
28. Call niDMM_CalAdjustMisc with Type set to
NIDMM_EXTCAL_MISCCAL_2WIRELEAKAGE.
29. On the NI 4070/4072, plug a Pomona B-4 banana cable from the HI
input to the HI SENSE input. Plug another Pomona B-4 banana cable
from the LO input to the LO SENSE input.
Caution Make sure that the insulation of these cables does not touch.
30. Call niDMM_CalAdjustMisc with Type set to
NIDMM_EXTCAL_MISCCAL_4WIRELEAKAGE.
31. Remove the banana cables, and plug the two sets of Fluke 5440 cables
into the appropriate banana plug connectors on the NI 4070/4072,
asshown in Figure 2 for 4-wire resistance.
32. Wait two minutes for the thermal EMF to stabilize.
33. Output 100 MΩ from the calibrator without external sense.
34. Call niDMM_CalAdjustGain with the following parameters:
•Mode = NIDMM_VAL_2_WIRE_RES
•Range = 100e6
•Input Resistance = NIDMM_VAL_RESISTANCE_NA
•Expected Value = the display on the calibrator for 100MΩ
35. Output 0 Ω from the calibrator without external sense or 2-wire
compensation.