Fluke Corporation MET/CAL Procedure ============================================================================= INSTRUMENT: HP 3478A: (90 day) CAL VER IEEE /5700 DATE: 26-Nov-96 AUTHOR: Fluke Corporation REVISION: $Revision: 2.3 $ ADJUSTMENT THRESHOLD: 70% NUMBER OF TESTS: 66 NUMBER OF LINES: 536 CONFIGURATION: Fluke 5700A ============================================================================= # # Source: # Hewlett-Packard 3478A Service Manual, PN 03478-90001 # Instrument with serial number 2136A00101 and greater # # Compatibility: # MET/CAL 4.0 or later # # Subprocedures: # None # # Required Files: # None # # System Specifications: # TUR calculation is based on specification interval of the accuracy file. # The default 5700A accuracy file contains 90 day specs. # # Fluke makes no warranty, expressed or implied, as to the fitness # or suitability of this procedure in the customer's application. # STEP FSC RANGE NOMINAL TOLERANCE MOD1 MOD2 3 4 CON 1.001 ASK- R N P F W 1.002 MMFC C2 1.003 HEAD PRELIMINARY INSTRUCTIONS 1.004 DISP [32] WARNING 1.004 DISP HIGH VOLTAGE is used or exposed during the performance 1.004 DISP of this calibration. DEATH ON CONTACT may result if 1.004 DISP personnel fail to observe safety precautions. 1.005 DISP Ambient temperature: 18C - 28C. 1.005 DISP Relative humidity: less than 70%. 1.005 DISP Warmup time: 1 hour. 1.006 DISP Connect the UUT to GPIB port 1. 1.007 DISP Put the Front/Rear switch in the FRONT (Out) position. 1.008 DISP Before verifying the UUT, check the FUSE. 1.009 OPBR The 3478A may be calibrated to measure 2-Wire 1.009 OPBR or 4-Wire Ohms, but NOT both. Attempting to verify 1.009 OPBR a resistance mode that was not previously calibrated 1.009 OPBR will result in multiple errors. 1.009 OPBR 1.009 OPBR Enter YES to verify 4-Wire or No to verify 2-Wire Ohms. 1.010 MATH M[113] = MEM1 1.011 HEAD {DC VOLTAGE} 1.012 JMPT 1.015 1.013 DISP Connect the 5700A and the UUT as follows. 1.013 DISP [32] 5700A OUTPUT HI to UUT INPUT HI 1.013 DISP [32] 5700A OUTPUT LO to UUT INPUT LO 1.013 DISP [32] 5700A SENSE HI to UUT INPUT HI 1.013 DISP [32] 5700A SENSE LO to UUT INPUT LO 1.013 DISP [32] 5700A AUX CURRENT OUTPUT HI to UUT INPUT A 1.014 JMP 1.016 1.015 DISP Connect the 5700A and the UUT as follows. 1.015 DISP [32] 5700A OUTPUT HI to UUT INPUT HI 1.015 DISP [32] 5700A OUTPUT LO to UUT INPUT LO 1.015 DISP [32] 5700A SENSE HI to UUT OHM SENSE HI 1.015 DISP [32] 5700A SENSE LO to UUT OHM SENSE LO 1.015 DISP [32] 5700A AUX CURRENT OUTPUT HI to UUT INPUT A 1.016 HEAD DC VOLTAGE: {30mV RANGE} 1.017 IEEE F1R-2N5Z1 1.018 5700 0.0000mV S 2W 1.019 IEEE T3[I] 1.020 MATH MEM = MEM * 1000 1.021 MEME 1.022 MEMC 30 mV 0.0041U 2.001 HEAD DC VOLTAGE: {300mV RANGE} 2.002 IEEE R-1 2.003 5700 0.000mV S 2W 2.004 IEEE T3[I] 2.005 MATH MEM = MEM * 1000 2.006 MEME 2.007 MEMC 300 mV 0.005U 3.001 HEAD DC VOLTAGE: {3V RANGE} 3.002 IEEE R0 3.003 5700 0.00000V S 2W 3.004 IEEE T3[I] 3.005 MEME 3.006 MEMC 3 V 0.00002U 4.001 HEAD DC VOLTAGE: {30V RANGE} 4.002 IEEE R1 4.003 5700 0.0000V S 2W 4.004 IEEE T3[I] 4.005 MEME 4.006 MEMC 30 V 0.0003U 5.001 HEAD DC VOLTAGE: {300V RANGE} 5.002 IEEE R2 5.003 5700 0.000V S 2W 5.004 IEEE T3[I] 5.005 MEME 5.006 MEMC 300 V 0.002U 6.001 HEAD DC VOLTAGE: {30mV RANGE} 6.002 IEEE R-2 6.003 5700 30.0000mV S 2W 6.004 IEEE T3[I] 6.005 MATH MEM = MEM * 1000 6.006 MEME 6.007 MEMC 30 mV 0.0131U 7.001 HEAD DC VOLTAGE: {300mV RANGE} 7.002 IEEE R-1 7.003 5700 300.000mV S 2W 7.004 IEEE T3[I] 7.005 MATH MEM = MEM * 1000 7.006 MEME 7.007 MEMC 300 mV 0.027U 8.001 HEAD DC VOLTAGE: {3V RANGE} 8.002 IEEE R0 8.003 5700 0.30000V S 2W 8.004 IEEE T3[I] 8.005 MEME 8.006 MEMC 3 V 0.00004U 9.001 5700 1.00000V S 2W 9.002 IEEE T3[I] 9.003 MEME 9.004 MEMC 3 V 0.00008U 10.001 5700 -1.00000V S 2W 10.002 IEEE T3[I] 10.003 MEME 10.004 MEMC 3 V 0.00008U 11.001 5700 -3.00000V S 2W 11.002 IEEE T3[I] 11.003 MEME 11.004 MEMC 3 V 0.0002U 12.001 IEEE Z1 12.002 5700 3.00000V S 2W 12.003 IEEE T3[I] 12.004 MEME 12.005 MEMC 3 V 0.0002U 13.001 IEEE Z0N5 13.002 5700 3.00000V S 2W 13.003 IEEE T3[I] 13.004 MEME 13.005 MEMC 3 V 0.00023U 14.001 IEEE Z1N4 14.002 5700 3.00000V S 2W 14.003 IEEE T3[I] 14.004 MEME 14.005 MEMC 3 V 0.0003U 15.001 IEEE N3R0 15.002 5700 3.00000V S 2W 15.003 IEEE T3[I] 15.004 MEME 15.005 MEMC 3 V 0.001U 16.001 HEAD DC VOLTAGE: {30V RANGE} 16.002 IEEE N5R1 16.003 5700 3.0000V S 2W 16.004 IEEE T3[I] 16.005 MEME 16.006 MEMC 30 V 0.0005U 17.001 5700 10.0000V S 2W 17.002 IEEE T3[I] 17.003 MEME 17.004 MEMC 30 V 0.001U 18.001 IEEE Z1 18.002 5700 30.0000V S 2W 18.003 IEEE T3[I] 18.004 MEME 18.005 MEMC 30 V 0.0025U 19.001 IEEE Z0R1 19.002 5700 30.0000V S 2W 19.003 IEEE T3[I] 19.004 MEME 19.005 MEMC 30 V 0.0036U 20.001 HEAD DC VOLTAGE: {300V RANGE} 20.002 IEEE Z1R2 20.003 5700 300.000V S 2W 20.004 IEEE [D2000]T3[I] 20.005 MEME 20.006 MEMC 300 V 0.025U 21.001 RSLT = 21.002 HEAD {DC CURRENT} 21.003 HEAD DC CURRENT: {300mA RANGE} 21.004 IEEE F5R-1N5 21.005 ACC 0.000mA 1e-6U 21.006 IEEE [D1000]T3[I] 21.007 MATH MEM = MEM * 1000 21.008 MEME 21.009 MEMC 300 mA 0.04U 22.001 HEAD DC CURRENT: {3A RANGE} 22.002 IEEE R0 22.003 ACC 0.00000A 1e-6U 22.004 IEEE [D1000]T3[I] 22.005 MEME 22.006 MEMC 3 A 0.00006U 23.001 HEAD DC CURRENT: {300mA RANGE} 23.002 IEEE R-1 23.003 5700 100.000mA S 2W 23.004 IEEE T3[I] 23.005 MATH MEM = MEM * 1000 23.006 MEME 23.007 MEMC 300 mA 0.15U 24.001 HEAD DC CURRENT: {3A RANGE} 24.002 IEEE R0 24.003 5700 1.00000A S 2W 24.004 IEEE T3[I] 24.005 MEME 24.006 MEMC 3 A 0.00146U 25.001 5700 * S 25.002 RSLT = 25.003 HEAD {AC VOLTAGE} 25.004 HEAD AC VOLTAGE: {300mV RANGE} 25.005 IEEE F2R-1N5 25.006 5700 30.000mV 20kH S 2W 25.007 IEEE T3[I] 25.008 MATH MEM = MEM * 1000 25.009 MEME 25.010 MEMC 300 mV 0.25U 20kH 26.001 5700 300.000mV 20kH S 2W 26.002 IEEE T3[I] 26.003 MATH MEM = MEM * 1000 26.004 MEME 26.005 MEMC 300 mV 1.033U 20kH 27.001 HEAD AC VOLTAGE: {3V RANGE} 27.002 IEEE R0 27.003 5700 0.30000V 20kH S 2W 27.004 IEEE T3[I] 27.005 MEME 27.006 MEMC 3 V 0.0018U 20kH 28.001 5700 1.50000V 20kH S 2W 28.002 IEEE T3[I] 28.003 MEME 28.004 MEMC 3 V 0.00492U 20kH 29.001 IEEE R0 29.002 5700 3.00000V 20kH S 2W 29.003 IEEE T3[I] 29.004 MEME 29.005 MEMC 3 V 0.00882U 20kH 30.001 HEAD AC VOLTAGE: {30V RANGE} 30.002 IEEE R1 30.003 5700 3.0000V 20kH S 2W 30.004 IEEE T3[I] 30.005 MEME 30.006 MEMC 30 V 0.018U 20kH 31.001 5700 30.0000V 20kH S 2W 31.002 IEEE T3[I] 31.003 MEME 31.004 MEMC 30 V 0.0882U 20kH 32.001 HEAD AC VOLTAGE: {300V RANGE} 32.002 IEEE R2 32.003 5700 30.000V 20kH S 2W 32.004 IEEE T3[I] 32.005 MEME 32.006 MEMC 300 V 0.201U 20kH 33.001 5700 100.000V 20kH S 2W 33.002 IEEE T3[I] 33.003 MEME 33.004 MEMC 300 V 0.432U 20kH 34.001 HEAD AC VOLTAGE: {300mV RANGE} 34.002 IEEE R-1 34.003 5700 300.000mV 50kH S 2W 34.004 IEEE T3[I] 34.005 MATH MEM = MEM * 1000 34.006 MEME 34.007 MEMC 300 mV 1.927U 50kH 35.001 HEAD AC VOLTAGE: {3V RANGE} 35.002 IEEE R0 35.003 5700 3.00000V 50kH S 2W 35.004 IEEE T3[I] 35.005 MEME 35.006 MEMC 3 V 0.0141U 50kH 36.001 HEAD AC VOLTAGE: {30V RANGE} 36.002 IEEE R1 36.003 5700 19.0000V 50kH S 2W 36.004 IEEE T3[I] 36.005 MEME 36.006 MEMC 30 V 0.0883U 50kH 37.001 HEAD AC VOLTAGE: {300V RANGE} 37.002 IEEE R2 37.003 5700 19.000V 50kH S 2W 37.004 IEEE T3[I] 37.005 MEME 37.006 MEMC 300 V 0.286U 50kH 38.001 HEAD AC VOLTAGE: {3V RANGE} 38.002 IEEE R0 38.003 5700 3.00000V 50H S 2W 38.004 IEEE T3[I] 38.005 MEME 38.006 MEMC 3 V 0.01483U 50H 39.001 5700 * S 39.002 RSLT = 39.003 HEAD {AC CURRENT} 39.004 HEAD AC CURRENT: {300mA RANGE} 39.005 IEEE F6R-1N5 39.006 5700 10.000mA 5kH S 2W 39.007 IEEE T3[I] 39.008 MATH MEM = MEM * 1000 39.009 MEME 39.010 MEMC 300 mA 0.235U 5kH 40.001 5700 100.000mA 5kH S 2W 40.002 IEEE T3[I] 40.003 MATH MEM = MEM * 1000 40.004 MEME 40.005 MEMC 300 mA 0.883U 5kH 41.001 HEAD AC CURRENT: {3A RANGE} 41.002 IEEE R0 41.003 5700 1.00000A 5kH S 2W 41.004 IEEE T3[I] 41.005 MEME 41.006 MEMC 3 A 0.01583U 5kH 42.001 RSLT = 42.002 MATH MEM1 = M[113] 42.003 JMPT 54.002 42.004 HEAD {2-WIRE RESISTANCE} 42.005 HEAD 2-WIRE RESISTANCE: {30 Ohm RANGE} 42.006 IEEE F3R1N5 42.007 5700 0.0000Z S CW 42.008 IEEE T3[I] 42.009 MEME 42.010 MEMC 30 Z 0.0041U 43.001 HEAD 2-WIRE RESISTANCE: {300 Ohm RANGE} 43.002 IEEE R2 43.003 5700 0.000Z S CW 43.004 IEEE T3[I] 43.005 MEME 43.006 MEMC 300 Z 0.004U 44.001 HEAD 2-WIRE RESISTANCE: {3 kOhm RANGE} 44.002 IEEE R3 44.003 5700 0.00000kZ S CW 44.004 IEEE T3[I] 44.005 MATH MEM = MEM / 1000 44.006 MEME 44.007 MEMC 3 kZ 0.00002U 45.001 HEAD 2-WIRE RESISTANCE: {30 kOhm RANGE} 45.002 IEEE R4 45.003 5700 0.0000kZ S CW 45.004 IEEE T3[I] 45.005 MATH MEM = MEM / 1000 45.006 MEME 45.007 MEMC 30 kZ 0.0002U 46.001 HEAD 2-WIRE RESISTANCE: {300 kOhm RANGE} 46.002 IEEE R5 46.003 5700 0.000kZ S CW 46.004 IEEE T3[I] 46.005 MATH MEM = MEM / 1000 46.006 MEME 46.007 MEMC 300 kZ 0.002U 47.001 HEAD 2-WIRE RESISTANCE: {3 MOhm RANGE} 47.002 IEEE R6 47.003 5700 0.00000MZ S CW 47.004 IEEE T3[I] 47.005 MATH MEM = MEM / 1e+6 47.006 MEME 47.007 MEMC 3 MZ 0.00002U 48.001 HEAD 2-WIRE RESISTANCE: {30 MOhm RANGE} 48.002 IEEE R7 48.003 5700 0.0000MZ S CW 48.004 IEEE T3[I] 48.005 MATH MEM = MEM / 1e+6 48.006 MEME 48.007 MEMC 30 MZ 0.0002U 49.001 HEAD 2-WIRE RESISTANCE: {3 kOhm RANGE} 49.002 IEEE R3 49.003 5700 1.00000kZ S CW 49.004 IEEE T3[I] 49.005 MATH MEM = MEM / 1000 49.006 MEME 49.007 MEMC 3 kZ 0.00013U 50.001 HEAD 2-WIRE RESISTANCE: {30 kOhm RANGE} 50.002 IEEE R4 50.003 5700 10.0000kZ S CW 50.004 IEEE T3[I] 50.005 MATH MEM = MEM / 1000 50.006 MEME 50.007 MEMC 30 kZ 0.0013U 51.001 HEAD 2-WIRE RESISTANCE: {300 kOhm RANGE} 51.002 IEEE R5 51.003 5700 100.000kZ S 2W 51.004 IEEE T3[I] 51.005 MATH MEM = MEM / 1000 51.006 MEME 51.007 MEMC 300 kZ 0.013U 52.001 HEAD 2-WIRE RESISTANCE: {3 MOhm RANGE} 52.002 IEEE R6 52.003 5700 1.00000MZ S 2W 52.004 IEEE T3[I] 52.005 MATH MEM = MEM / 1e+6 52.006 MEME 52.007 MEMC 3 MZ 0.00013U 53.001 HEAD 2-WIRE RESISTANCE: {30 MOhm RANGE} 53.002 IEEE R7 53.003 5700 10.0000MZ S 2W 53.004 IEEE T3[I] 53.005 MATH MEM = MEM / 1e+6 53.006 MEME 53.007 MEMC 30 MZ 0.0068U 54.001 JMP 66.001 54.002 HEAD {4-WIRE RESISTANCE} 54.003 HEAD 4-WIRE RESISTANCE: {30 Ohm RANGE} 54.004 IEEE F4R1N5 54.005 5700 0.0000Z S 4W 54.006 IEEE T3[I] 54.007 MEME 54.008 MEMC 30 Z 0.0041U 55.001 HEAD 4-WIRE RESISTANCE: {300 Ohm RANGE} 55.002 IEEE R2 55.003 5700 0.000Z S 4W 55.004 IEEE T3[I] 55.005 MEME 55.006 MEMC 300 Z 0.004U 56.001 HEAD 4-WIRE RESISTANCE: {3 kOhm RANGE} 56.002 IEEE R3 56.003 5700 0.00000kZ S 4W 56.004 IEEE T3[I] 56.005 MATH MEM = MEM / 1e+3 56.006 MEME 56.007 MEMC 3 kZ 0.00002U 57.001 HEAD 4-WIRE RESISTANCE: {30 kOhm RANGE} 57.002 IEEE R4 57.003 5700 0.0000kZ S 4W 57.004 IEEE T3[I] 57.005 MATH MEM = MEM / 1e+3 57.006 MEME 57.007 MEMC 30 kZ 0.0002U 58.001 HEAD 4-WIRE RESISTANCE: {300 kOhm RANGE} 58.002 IEEE R5 58.003 5700 0.000kZ S 4W 58.004 IEEE T3[I] 58.005 MATH MEM = MEM / 1e+3 58.006 MEME 58.007 MEMC 300 kZ 0.002U 59.001 HEAD 4-WIRE RESISTANCE: {3 MOhm RANGE} 59.002 IEEE R6 59.003 5700 0.00000MZ S 4W 59.004 IEEE T3[I] 59.005 MATH MEM = MEM / 1e+6 59.006 MEME 59.007 MEMC 3 MZ 0.00002U 60.001 HEAD 4-WIRE RESISTANCE: {30 MOhm RANGE} 60.002 IEEE R7 60.003 5700 0.0000MZ S 4W 60.004 IEEE T3[I] 60.005 MATH MEM = MEM / 1e+6 60.006 MEME 60.007 MEMC 30 MZ 0.0002U 61.001 HEAD 4-WIRE RESISTANCE: {3 kOhm RANGE} 61.002 IEEE R3 61.003 5700 1.00000kZ S 4W 61.004 IEEE T3[I] 61.005 MATH MEM = MEM / 1e+3 61.006 MEME 61.007 MEMC 3 kZ 0.00013U 62.001 HEAD 4-WIRE RESISTANCE: {30 kOhm RANGE} 62.002 IEEE R4 62.003 5700 10.0000kZ S 4W 62.004 IEEE T3[I] 62.005 MATH MEM = MEM / 1e+3 62.006 MEME 62.007 MEMC 30 kZ 0.0013U 63.001 HEAD 4-WIRE RESISTANCE: {300 kOhm RANGE} 63.002 IEEE R5 63.003 5700 100.000kZ S 4W 63.004 IEEE T3[I] 63.005 MATH MEM = MEM / 1e+3 63.006 MEME 63.007 MEMC 300 kZ 0.013U 64.001 HEAD 4-WIRE RESISTANCE: {3 MOhm RANGE} 64.002 IEEE R6 64.003 5700 1.00000MZ S 4W 64.004 IEEE T3[I] 64.005 MATH MEM = MEM / 1e+6 64.006 MEME 64.007 MEMC 3 MZ 0.00013U 65.001 HEAD 4-WIRE RESISTANCE: {30 MOhm RANGE} 65.002 IEEE R7 65.003 5700 10.0000MZ S 4W 65.004 IEEE T3[I] 65.005 MATH MEM = MEM / 1e+6 65.006 MEME 65.007 MEMC 30 MZ 0.0068U 66.001 5700 * S 66.002 RSLT = 66.003 DISP {V E R I F I C A T I O N C O M P L E T E} 66.004 END