User Contributed MET/CAL Procedure ============================================================================= INSTRUMENT: HP 3456A: (365 day) CAL VER IEEE DATE: 26-Mar-98 AUTHOR: User Contributed REVISION: $Revision: 2.1 $ ADJUSTMENT THRESHOLD: 70% NUMBER OF TESTS: 47 NUMBER OF LINES: 313 CONFIGURATION: Fluke 5700A ============================================================================= # # Source: # Hewlett-Packard 3456A Service Manual, PN 03456-90004 # Instrument with serial number 2201AXXXXX 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 INITIAL INFORMATION 1.004 DISP The following tests verify the performance of the 1.004 DISP HP 3456A DMM as detailed in the manufacturers manual - 1.004 DISP Part No. 03456-90004, December 1980. 1.004 DISP Allow AT LEAST one hour of warm-up time for the UUT 1.004 DISP before running these tests. 1.004 DISP 1.004 DISP Before verifying the UUT, check the FUSE. 1.005 DISP Connect the UUT to IEEE-488 Port 1 on the PC. 1.005 DISP 1.005 DISP Put the Front/Rear switch in the FRONT (Out) position 1.005 DISP and turn on the UUT. 1.006 HEAD {DC VOLTAGE VERIFICATION} 1.007 DISP Connect the 5700A and the UUT as follows. 1.007 DISP [32] 5700A OUTPUT HI to UUT INPUT HI 1.007 DISP [32] 5700A OUTPUT LO to UUT INPUT LO 1.007 DISP [32] 5700A SENSE HI to UUT INPUT HI 1.007 DISP [32] 5700A SENSE LO to UUT INPUT LO 1.007 DISP [32] 5700A GUARD OUTPUT to UUT GUARD 1.008 IEEE H 1.008 IEEE F1R2Z16STG 1.009 5700 0V S 2W 1.010 IEEE T3[I]R2 1.011 MEME 1.012 MEMC 0.1 V 0.0024U 2.001 IEEE R3 2.002 5700 0V S 2W 2.003 IEEE T3[I]R3 2.004 MEME 2.005 MEMC 1 V 0.000004U 3.001 IEEE R4 3.002 5700 0V S 2W 3.003 IEEE T3[I]R4 3.004 MEME 3.005 MEMC 10 V 0.00002U 4.001 IEEE R5 4.002 5700 0V S 2W 4.003 IEEE T3[I] 4.004 MEME 4.005 MEMC 100 V 0.0003U 5.001 IEEE R6 5.002 5700 0V S 2W 5.003 IEEE T3[I] 5.004 MEME 5.005 MEMC 1000 V 0.002U 6.001 IEEE R1 6.002 5700 10V S 2W 6.003 IEEE T3[I] 6.004 MEME 6.005 MEMC 10 V 0.00025U 7.001 IEEE R1 7.002 5700 1V S 2W 7.003 IEEE T3[I] 7.004 MEME 7.005 MEMC 1 V 0.000028U 8.001 IEEE R1 8.002 5700 0.1V S 2W 8.003 IEEE T3[I] 8.004 MEME 8.005 MEMC 0.1 V 0.0058U 9.001 IEEE R1 9.002 5700 100V S 2W 9.003 IEEE T3[I] 9.004 MEME 9.005 MEMC 100 V 0.0029U 10.001 5700 1000V S 2W 10.002 IEEE T3[I] 10.003 MEME 10.004 MEMC 1000 V 0.146U 11.001 IEEE R4 11.002 5700 -1V S 2W 11.003 IEEE T3[I] 11.004 MEME 11.005 MEMC 10 V 0.00004U 12.001 5700 -5V S 2W 12.002 IEEE T3[I] 12.003 MEME 12.004 MEMC -5 V 0.00014U 13.001 5700 -10V S 2W 13.002 IEEE T3[I] 13.003 MEME 13.004 MEMC -10 V 0.00025U 14.001 IEEE 100STI 14.002 5700 -10V S 2W 14.003 IEEE T1[I] 14.004 MEME 14.005 MEMC -10 V 0.00025U 15.001 IEEE 1STI 15.002 5700 -10V S 2W 15.003 IEEE T1[I] 15.004 MEME 15.005 MEMC 10 V 0.00027U 16.001 IEEE .1STI 16.002 5700 -10V S 2W 16.003 IEEE T1[I] 16.004 MEME 16.005 MEMC 10 V 0.0009U 17.001 IEEE O.O1STI 17.002 5700 -10V S 2W 17.003 IEEE T1[I] 17.004 MEME 17.005 MEMC 10 V 0.008U 18.001 IEEE 10STI 18.002 IEEE FL1 18.003 5700 -10V S 2W 18.004 IEEE T1[I] 18.005 MEME 18.006 MEMC 10 V 0.00025U 19.001 IEEE FL0Z0 19.002 5700 -10V S 2W 19.003 IEEE T1[I] 19.004 MEME 19.005 MEMC 10 V 0.00026U 20.001 DISP Connect the 5700 and UUT as follows 20.001 DISP [32] Connect 5700 HI output to 3456A HI AND SENSE HI 20.001 DISP [32] Connect 5700 LO output to 3456A LO AND SENSE LO 20.002 IEEE H 20.002 IEEE F1S1 20.003 5700 1V S 2W 20.004 IEEE T1[I] 20.005 MEME 20.006 MEMC 1 V 0.0005U 21.001 IEEE F3S0R1 21.002 5700 10mV S 2W 21.003 IEEE T1[I] 21.004 MATH MEM=MEM*1000 21.005 MEME 21.006 MEMC 10 mV 0.72U 22.001 5700 * S 22.002 HEAD 22.003 RSLT = 22.004 HEAD {AC VOLTAGE VERIFICATION} 22.005 DISP Connect the 5700 and UUT as follows 22.005 DISP [32]Connect5700 output HI AND SENSE HI TO HP3456 HI 22.005 DISP [32]Connect5700 output LO AND SENSE LO TO HP3456 LO 22.006 IEEE F2R16STG 22.007 5700 10mV 1kH O S 2W 22.008 IEEE T3[I] 22.009 MATH MEM=MEM*1000 22.010 MEME 22.011 MEMC 10 mV 0.71U 1kH 23.001 5700 100mV 1kH S 2W 23.002 IEEE T3[I] 23.003 MATH MEM=MEM*1000 23.004 MEME 23.005 MEMC 100 mV 0.77U 1kH 24.001 5700 0.5V 1kH S 2W 24.002 IEEE T3[I] 24.003 MEME 24.004 MEMC 0.5 V 0.00105U 1kH 25.001 5700 1V 1kH S 2W 25.002 IEEE T3[I] 25.003 MEME 25.004 MEMC 1 V 0.00140U 1kH 26.001 5700 10V 1kH S 2W 26.002 IEEE T3[I] 26.003 MEME 26.004 MEMC 10 V 0.0140U 1kH 27.001 5700 100V 1kH S 2W 27.002 IEEE T3[I] 27.003 MEME 27.004 MEMC 100 V 0.14U 1kH 28.001 5700 700V 1kH S 2W 28.002 IEEE T3[I] 28.003 MEME 28.004 MEMC 700 V 1.68U 1kH 29.001 5700 10mV 100kH O S 2W 29.002 IEEE FL0 29.002 IEEE T3[I] 29.003 MATH MEM=MEM*1000 29.004 MEME 29.005 MEMC 10 mV 2.96U 100kH 30.001 5700 1V 100kH S 2W 30.002 IEEE T3[I] 30.003 MEME 30.004 MEMC 1 V 0.00840U 100kH 31.001 5700 10V 100kH S 2W 31.002 IEEE T3[I] 31.003 MEME 31.004 MEMC 10 V 0.0840U 100kH 32.001 5700 100V 100kH S 2W 32.002 IEEE T3[I] 32.003 MEME 32.004 MEMC 100 V 0.840U 100kH 33.001 5700 1V 250kH S 2W 33.002 IEEE T3[I] 33.003 MEME 33.004 MEMC 1 V 0.05650U 250KH 34.001 5700 10V 250kH S 2W 34.002 IEEE T3[I] 34.003 MEME 34.004 MEMC 10 V 0.5650U 250KH 35.001 IEEE FL1 35.002 5700 1V 20H S 2W 35.003 IEEE T3[I] 35.004 MEME 35.005 MEMC 1 V 0.004U 20H 36.001 IEEE F3 36.002 5700 1V 20H S 2W 36.003 IEEE T3[I] 36.004 MEME 36.005 MEMC 1 V 0.004U 20H 37.001 5700 * S 37.002 RSLT = 37.003 HEAD 2-wire Ohms Verification 37.004 HEAD {RESISTANCE VERIFICATION 2-WIRE MODE} 37.005 ASK- U 37.006 IEEE H 37.006 IEEE F4R16STG 37.007 5700 0Z S CW 37.008 IEEE T3[I] 37.009 MEME 37.010 MEMC 0 Z 0.2024U 38.001 IEEE F4R4 38.002 5700 10kZ S CW 38.003 IEEE T1[I] 38.004 MATH MEM=MEM/1000 38.005 MEME 38.006 MEMC 10 kZ 0.00034U 39.001 IEEE F4R6 39.002 5700 1000kZ S 2W 39.003 IEEE T1[I] 39.004 MATH MEM=MEM/1000 39.005 MEME 39.006 MEMC 1000 kZ 0.072U 40.001 RSLT = 40.002 HEAD 40.003 HEAD {RESISTANCE VERIFICATION 4-WIRE MODE} 40.004 DISP Connect the 5700A and the UUT as follows. 40.004 DISP [32] 5700A OUTPUT HI to UUT INPUT HI 40.004 DISP [32] 5700A OUTPUT LO to UUT INPUT LO 40.004 DISP [32] 5700A SENSE HI to UUT OHM SENSE HI 40.004 DISP [32] 5700A SENSE LO to UUT OHM SENSE LO 40.005 IEEE F5R2Z16STG 40.006 5700 0Z S 4W 40.007 IEEE T3[I] 40.008 MATH MEM1 = 0 40.009 MEME 40.010 MEMC 100 Z 0.0024U 41.001 IEEE R3 41.002 5700 0Z S 4W 41.003 IEEE T3[I] 41.004 MATH MEM1 = 0 41.005 MEME 41.006 5700 100Z S 4W 41.007 IEEE T3[I] 41.008 MEME 41.009 MEMC 100 Z 0.0064U 42.001 IEEE R1 42.002 5700 1000Z S 4W 42.003 IEEE T1[I] 42.004 MEME 42.005 MEMC 1000 Z 0.034U 43.001 IEEE R1 43.002 5700 100kZ S 4W 43.003 IEEE T1[I] 43.004 MATH MEM=MEM/1000 43.005 MEME 43.006 MEMC 100 kZ 0.0032U 44.001 IEEE R1 44.002 5700 1000kZ S 4W 44.003 IEEE T1[I] 44.004 MATH MEM=MEM/1000 44.005 MEME 44.006 MEMC 1000 kZ 0.072U 45.001 IEEE R1 45.002 5700 10MZ S 4W 45.003 IEEE T3[I] 45.004 MATH MEM=MEM/1000000 45.005 MEME 45.006 MEMC 10 MZ 0.00422U 46.001 IEEE R5 46.002 5700 10kZ S 4W 46.003 IEEE T3[I] 46.004 MATH MEM=MEM/1000 46.005 MEME 46.006 MEMC 10 kZ 0.0005U 47.001 END