Fluke Corporation MET/CAL Procedure ============================================================================= INSTRUMENT: Philips PM 2535: (90 day) CAL VER IEEE /5700 DATE: 15-Feb-95 AUTHOR: Fluke Corporation REVISION: $Revision: 2.3 $ ADJUSTMENT THRESHOLD: 70% NUMBER OF TESTS: 45 NUMBER OF LINES: 298 CONFIGURATION: Fluke 5700A ============================================================================= # # Source: # # Compatibility: # MET/CAL 3.0 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. # # The 90 day specifications of the 5700A are used in TUR computations. # # DC Current Verification # 30mA Range (30mA), TUR = 3.750 # STEP FSC RANGE NOMINAL TOLERANCE MOD1 MOD2 3 4 CON 1.001 MMFC C2 1.002 ASK- R Q N P F W 1.003 HEAD EQUIPMENT SETUP 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 Before performing verification allow the UUT to 1.005 DISP Stabilize @ 23+/-5degC for 30 minutes. 1.006 DISP Connect the PM2535 to the IEEE-488 port 1 on the PC. 1.007 DISP Toggle the PM2535 power switch "ON" (Rear of Unit). 1.008 IEEE [SDC] 1.009 HEAD {DC VOLTS} 1.010 DISP Connect the 5700A and the UUT as follows. 1.010 DISP [32] 5700A OUTPUT HI to UUT V Ohm 1.010 DISP [32] 5700A OUTPUT LO to UUT COM 1.010 DISP [32] 5700A SENSE HI to UUT V Ohm 1.010 DISP [32] 5700A SENSE LO to UUT COM 1.010 DISP [32] 5700A AUX CURRENT OUTPUT HI to UUT A 1.011 HEAD DC VOLTS: {300mV Range} 1.012 IEEE FNC VDC 0.001,MSP 2,TRG B 1.013 5700 0.0000mV S 2W 1.014 IEEE X[I]X[I] 1.015 MATH MEM = MEM * 1000 1.016 MEME 1.017 MEMC 300 mV 0.0017/ 2.001 5700 300.0000mV S 2W 2.002 IEEE x[I]X[I] 2.003 MATH MEM = MEM * 1000 2.004 MEME 2.005 MEMC 300 mV .007% .0017/ 3.001 5700 -300.0000mV S 2W 3.002 IEEE x[I]X[I] 3.003 MATH MEM = MEM * 1000 3.004 MEME 3.005 MEMC 300 mV .007% .0017/ 4.001 HEAD DC VOLTS: {3V Range} 4.002 IEEE RNG 3 4.003 5700 3.000000V S 2W 4.004 IEEE x[I]X[I] 4.005 MEME 4.006 MEMC 3 V .005% .0013/ 5.001 5700 -3.000000V S 2W 5.002 IEEE x[I]X[I] 5.003 MEME 5.004 MEMC 3 V .005% .0013/ 6.001 HEAD DC VOLTS: {30V Range} 6.002 IEEE RNG 30 6.003 5700 30.00000V S 2W 6.004 IEEE x[I]X[I] 6.005 MEME 6.006 MEMC 30 V .006% .0017/ 7.001 5700 -30.00000V S 2W 7.002 IEEE x[I]X[I] 7.003 MEME 7.004 MEMC 30 V .006% .0017/ 8.001 HEAD DC VOLTS: {300V Range} 8.002 IEEE RNG 300 8.003 5700 300.0000V S 2W 8.004 IEEE x[I]X[I] 8.005 MEME 8.006 MEMC 300 V .006% .0013/ 9.001 5700 -300.0000V S 2W 9.002 IEEE x[I]X[I] 9.003 MEME 9.004 MEMC 300 V .006% .0013/ 10.001 5700 * S 10.002 HEAD {AC VOLTS} 10.003 HEAD AC VOLTS: {300mV Range} 10.004 IEEE FNC VAC 0.3 10.005 5700 300.00mV 40H S 2W 10.006 IEEE X[I]X[I] 10.007 MATH MEM = MEM * 1000 10.008 MEME 10.009 MEMC 300 mV 0.2% 0.1/ 40H 11.001 5700 300.00mV 400H S 2W 11.002 IEEE X[I]X[I] 11.003 MATH MEM = MEM * 1000 11.004 MEME 11.005 MEMC 300 mV 0.2% 0.1/ 400H 12.001 5700 300.00mV 5kH S 2W 12.002 IEEE X[I]X[I] 12.003 MATH MEM = MEM * 1000 12.004 MEME 12.005 MEMC 300 mV 0.4% 0.2/ 5kH 13.001 5700 300.00mV 20kH S 2W 13.002 IEEE X[I]X[I] 13.003 MATH MEM = MEM * 1000 13.004 MEME 13.005 MEMC 300 mV 1.0% 0.5/ 20kH 14.001 5700 300.00mV 100kH S 2W 14.002 IEEE X[I]X[I] 14.003 MATH MEM = MEM * 1000 14.004 MEME 14.005 MEMC 300 mV 4.2% 2.1/ 100kH 15.001 HEAD AC VOLTS: {3V Range} 15.002 IEEE RNG 3 15.003 5700 3.0000V 40H S 2W 15.004 IEEE X[I]X[I] 15.005 MEME 15.006 MEMC 3 V 0.2% 0.1/ 40H 16.001 5700 3.0000V 400H S 2W 16.002 IEEE X[I]X[I] 16.003 MEME 16.004 MEMC 3 V 0.2% 0.1/ 400H 17.001 5700 3.0000V 5kH S 2W 17.002 IEEE X[I]X[I] 17.003 MEME 17.004 MEMC 3 V 0.4% 0.2/ 5kH 18.001 5700 3.0000V 20kH S 2W 18.002 IEEE X[I]X[I] 18.003 MEME 18.004 MEMC 3 V 1.0% 0.5/ 20kH 19.001 5700 3.0000V 100kH S 2W 19.002 IEEE X[I]X[I] 19.003 MEME 19.004 MEMC 3 V 4.2% 2.1/ 100kH 20.001 HEAD AC VOLTS: {30V Range} 20.002 IEEE RNG 30 20.003 5700 30.000V 40H S 2W 20.004 IEEE X[I]X[I] 20.005 MEME 20.006 MEMC 30 V 0.2% 0.1/ 40H 21.001 5700 30.000V 400H S 2W 21.002 IEEE X[I]X[I] 21.003 MEME 21.004 MEMC 30 V 0.2% 0.1/ 400H 22.001 5700 30.000V 5kH S 2W 22.002 IEEE X[I]X[I] 22.003 MEME 22.004 MEMC 30 V 0.4% 0.2/ 5kH 23.001 5700 30.000V 20kH S 2W 23.002 IEEE X[I]X[I] 23.003 MEME 23.004 MEMC 30 V 1.0% 0.5/ 20kH 24.001 5700 30.000V 100kH S 2W 24.002 IEEE X[I]X[I] 24.003 MEME 24.004 MEMC 30 V 4.2% 2.1/ 100kH 25.001 HEAD AC VOLTS: {300V Range} 25.002 IEEE RNG 300 25.003 5700 120.00V 40H S 2W 25.004 IEEE X[I]X[I] 25.005 MEME 25.006 MEMC 300 V 0.2% 0.1/ 40H 26.001 5700 300.00V 400H S 2W 26.002 IEEE X[I]X[I] 26.003 MEME 26.004 MEMC 300 V 0.2% 0.1/ 400H 27.001 5700 120.00V 5kH S 2W 27.002 IEEE X[I]X[I] 27.003 MEME 27.004 MEMC 300 V 0.4% 0.2/ 5kH 28.001 5700 120.00V 20kH S 2W 28.002 IEEE X[I]X[I] 28.003 MEME 28.004 MEMC 300 V 1.0% 0.5/ 20kH 29.001 5700 100.00V 100kH S 2W 29.002 IEEE X[I]X[I] 29.003 MEME 29.004 MEMC 300 V 4.2% 2.1/ 100kH 30.001 5700 * S 30.002 HEAD {2 WIRE RESISTANCE} 30.003 HEAD 2 WIRE RESISTANCE: {3 kOhm Range} 30.004 IEEE FNC RTW 100 30.005 5700 0.000000kZ S CW 30.006 IEEE X[I]X[I] 30.007 MATH MEM = MEM / 1000 30.008 MEME 30.009 MEMC 3 kZ 0.0033/ 31.001 5700 1.900000kZ S CW 31.002 IEEE X[I]X[I] 31.003 MATH MEM = MEM / 1000 31.004 MEME 31.005 MEMC 3 kZ 0.02% 0.0033/ 32.001 HEAD 2 WIRE RESISTANCE: {30 kOhm Range} 32.002 IEEE RNG 3E+4 32.003 5700 19.00000kZ S CW 32.004 IEEE X[I]X[I] 32.005 MATH MEM = MEM / 1000 32.006 MEME 32.007 MEMC 30 kZ 0.02% 0.0033/ 33.001 HEAD 2 WIRE RESISTANCE: {300 kOhm Range} 33.002 IEEE RNG 3E+5 33.003 5700 190.0000kZ S 2W 33.004 IEEE X[I]X[I] 33.005 MATH MEM = MEM / 1000 33.006 MEME 33.007 MEMC 300 kZ 0.02% 0.0033/ 34.001 HEAD 2 WIRE RESISTANCE: {3 MOhm Range} 34.002 IEEE RNG 3E+6 34.003 5700 1.900000MZ S 2W 34.004 IEEE X[I]X[I] 34.005 MATH MEM = MEM / 1000000 34.006 MEME 34.007 MEMC 3 MZ 0.04% 0.0033/ 35.001 HEAD 2 WIRE RESISTANCE: {30 MOhm Range} 35.002 IEEE RNG 3E+7 35.003 5700 19.00000MZ S 2W 35.004 IEEE X[I]X[I] 35.005 MATH MEM = MEM / 1000000 35.006 MEME 35.007 MEMC 30 MZ 0.1% 0.0033/ 36.001 HEAD 2 WIRE RESISTANCE: {300 MOhm Range} 36.002 IEEE RNG 3E+8 36.003 5700 100.0000MZ S 2W 36.004 IEEE X[I]X[I] 36.005 MATH MEM = MEM / 1000000 36.006 MEME 36.007 MEMC 300 MZ 1.6% 0.033/ 37.001 5700 * S 37.002 HEAD {DC CURRENT} 37.003 HEAD DC CURRENT: {30mA Range} 37.004 IEEE FNC IDC 0.03 37.005 ASK- U 37.006 5700 30.0000mA S 2W 37.007 IEEE X[I]X[I] 37.008 MATH MEM = MEM * 1000 37.009 MEME 37.010 MEMC 30 mA 0.03% 0.005/ # WARNING: Test Tol 1.05e-005, Sys Tol 2.8e-006, T.U.R. 3.750 (< 4.00). 38.001 ASK+ U 38.002 HEAD DC CURRENT: {3A Range} 38.003 IEEE RNG 3 38.004 5700 2.00000A S 2W 38.005 IEEE X[I]X[I] 38.006 MEME 38.007 MEMC 3 A 0.15% 0.01/ 39.001 5700 * S 39.002 HEAD {AC CURRENT} 39.003 HEAD AC CURRENT: {30mA Range} 39.004 IEEE FNC IAC 0.03 39.005 5700 30.00mA 40H S 2W 39.006 IEEE X[I]X[I] 39.007 MATH MEM = MEM * 1000 39.008 MEME 39.009 MEMC 30 mA 0.2% 0.1/ 40H 40.001 5700 30.00mA 400H S 2W 40.002 IEEE X[I]X[I] 40.003 MATH MEM = MEM * 1000 40.004 MEME 40.005 MEMC 30 mA 0.2% 0.1/ 400H 41.001 5700 30.00mA 1kH S 2W 41.002 IEEE X[I]X[I] 41.003 MATH MEM = MEM * 1000 41.004 MEME 41.005 MEMC 30 mA 0.2% 0.1/ 1kH 42.001 HEAD AC CURRENT: {3A Range} 42.002 IEEE RNG 3 42.003 5700 2.000A 40H S 2W 42.004 IEEE X[I]X[I] 42.005 MEME 42.006 MEMC 3 A 0.2% 0.1/ 40H 43.001 5700 2.000A 400H S 2W 43.002 IEEE X[I]X[I] 43.003 MEME 43.004 MEMC 3 A 0.2% 0.1/ 400H 44.001 5700 2.000A 1kH S 2W 44.002 IEEE X[I]X[I] 44.003 MEME 44.004 MEMC 3 A 0.2% 0.1/ 1kH 45.001 END