© National Instruments Corporation 45 NI 4070/4072 Calibration Procedure
36. 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 0Ω
37. Call niDMM_CalAdjustOffset with the following parameters:
•Mode = NIDMM_VAL_2_WIRE_RES
•Range = 100e6
•Input Resistance = NIDMM_VAL_RESISTANCE_NA
38. Output 100 kΩ on the calibrator with external sense turned on
butwithout 2-wire compensation .
39. Call niDMM_CalAdjustGain with the following parameters:
•Mode = NIDMM_VAL_4_WIRE_RES
•Range = 100e3
•Input Resistance = NIDMM_VAL_RESISTANCE_NA
•Expected Value = the display on the calibrator for 100kΩ
40. Output 0 Ω on the calibrator with external sense turned on but without
2-wire compensation.
41. Call niDMM_CalAdjustGain with the following parameters:
•Mode = NIDMM_VAL_4_WIRE_RES
•Range = 100e3
•Input Resistance = NIDMM_VAL_RESISTANCE_NA
•Expected Value = the display on the calibrator for 0Ω
42. Output 10 kΩ on the calibrator with external sense turned on
butwithout 2-wire compensation .
43. Call niDMM_CalAdjustGain with the following parameters:
•Mode = NIDMM_VAL_4_WIRE_RES
•Range = 10e3
•Input Resistance = NIDMM_VAL_RESISTANCE_NA
•Expected Value = the display on the calibrator for 10kΩ
44. Output 0 Ω on the calibrator with external sense turned on but without
2-wire compensation.
45. Call niDMM_CalAdjustOffset with the following parameters:
•Mode = NIDMM_VAL_4_WIRE_RES
•Range = 100e3
•Input Resistance = NIDMM_VAL_RESISTANCE_NA