User Contributed MET/CAL PROCEDURE ============================================================================= INSTRUMENT: Keithley 220 INSTRUMENT: Keithley 224 DATE: 15-Jun-95 AUTHOR: User Contributed REVISION: 1.0 ADJUSTMENT THRESHOLD: 70% NUMBER OF TESTS: 13 NUMBER OF LINES: 132 CONFIGURATION: Fluke 5450A CONFIGURATION: HP 3458A ============================================================================= STEP FSC RANGE NOMINAL TOLERANCE MOD1 MOD2 3 4 CON #! An evualation has been done to determine the effect of applying less than #! normal current input to the 5450A. Results of that evaluation indicate #! that the degradation of accuracy was acceptable in light of the tolerance #! of the test instrument. All TUR's for this procedure are better than 4:1 1.001 ASK- R N P M F W 1.002 ASK+ X 1.003 HEAD Keithley 220/224 Current Source Calibration 1.004 OPBR Do you want to stop if the UUT is out of tolerance? 1.005 JMPT 1.010 1.006 ASK- A 1.007 DISP Connect the output of the UUT to the OUTPUT connector 1.007 DISP of the Fluke 5450 Resistance Calibrator using 1.007 DISP an insulated triaxial adapter. Connect the 1.007 DISP SENSE connector of the 5450 to the INPUT of the 1.007 DISP HP 3458A Multimeter. 1.008 5450 1Z S 4W 1.009 MATH MEM=MEM1 1.010 IEEE V11P1X 1.011 IEEE I100E-3F1X[D1000] 1.012 3458 100.000mV TOL N 2W 1.013 MEM/ 1.014 ACC 100.000mA TOL 1.015 MEME 1.016 MEMC 100 mA 0.15U 2.001 5450 1Z S 4W 2.002 MATH MEM=MEM1 2.003 IEEE I50E-3F1X[D1000] 2.004 3458 50.000mV TOL N 2W 2.005 MEM/ 2.006 ACC 50.000mA TOL 2.007 MEME 2.008 MEMC 100 mA 0.1U 3.001 5450 10Z S 4W 3.002 MATH MEM=MEM1 3.003 IEEE I20E-3F1X[D1000] 3.004 3458 200.000mV TOL E N 2W 3.005 MEM/ 3.006 ACC 20.000mA TOL 3.007 MEME 3.008 MEMC 100 mA 0.07U 4.001 5450 100Z S 4W 4.002 MATH MEM=MEM1 4.003 IEEE I10E-3F1X[D1000] 4.004 3458 1.00000V TOL N 2W 4.005 MEM/ 4.006 MEM* 1000 4.007 ACC 10.0000mA TOL 4.008 MEME 4.009 MEMC 10 mA 0.015U 5.001 5450 1kZ S 4W 5.002 MATH MEM=MEM1 5.003 IEEE I2E-3F1X[D1000] 5.004 3458 2.00000V TOL N 2W 5.005 MEM/ 5.006 ACC 2.0000mA TOL 5.007 MEME 5.008 MEMC 10 mA 0.0110U 6.001 5450 10kZ S 4W 6.002 MATH MEM=MEM1 6.003 IEEE I1E-3F1X[D1000] 6.004 3458 10.00000V TOL N 2W 6.005 MEM/ 6.006 ACC 1.00000mA TOL 6.007 MEME 6.008 MEMC 1 mA 0.0015U 7.001 5450 100kZ S 4W 7.002 MATH MEM=MEM1 7.003 IEEE I100E-6F1X[D1000] 7.004 3458 10.00000V TOL N 2W 7.005 MEM/ 7.006 MEM* 1000 7.007 ACC 100.000uA TOL 7.008 MEME 7.009 MEMC 100 uA 0.15U 8.001 5450 1MZ S 4W 8.002 MATH MEM=MEM1 8.003 IEEE I10E-6F1X[D1000] 8.004 3458 10.00000V TOL N 2W 8.005 MEM/ 8.006 ACC 10.0000uA TOL 8.007 MEME 8.008 MEMC 10 uA 0.015U 9.001 JMPT 13.001 Keithley 224 9.002 5450 10MZ S 4W 9.003 MATH MEM=MEM1 9.004 IEEE I1E-6F1X[D1000] 9.005 3458 10.00000V TOL N 2W 9.006 MEM/ 9.007 ACC 1.0000uA TOL 9.008 MEME 9.009 MEMC 1 uA 0.002U 10.001 5450 100MZ S 4W 10.002 MATH MEM=MEM1 10.003 IEEE I100E-9F1X[D1000] 10.004 3458 10.00000V TOL N 2W 10.005 MEM/ 10.006 MEM* 1000 10.007 ACC 100.00nA TOL 10.008 MEME 10.009 MEMC 100 nA 0.4U 11.001 5450 100MZ S 4W 11.002 MATH MEM=MEM1 11.003 IEEE I10E-9F1X[D1000] 11.004 3458 1.00000V TOL N 2W 11.005 MEM/ 11.006 MEM* 1000 11.007 ACC 10.000nA TOL 11.008 MEME 11.009 MEMC 10 nA 0.04U 12.001 5450 100MZ S 4W 12.002 MATH MEM=MEM1 12.003 IEEE I1E-9F1X[D1000] 12.004 3458 100.000mV TOL N 2W 12.005 MEM/ 12.006 ACC 1.0000nA TOL 12.007 MEME 12.008 MEMC 1 nA 0.006U 13.001 IEEE I0F0X