Fluke Corporation MET/CAL Procedure ============================================================================= INSTRUMENT: HP 3457A: (1 year) CAL VER IEEE /5700 DATE: 11-Dec-96 AUTHOR: Fluke Corporation REVISION: $Revision: 2.3 $ ADJUSTMENT THRESHOLD: 100% NUMBER OF TESTS: 123 NUMBER OF LINES: 892 CONFIGURATION: Fluke 5700A CONFIGURATION: Philips PM 5191 ============================================================================= # # Source: # HP 3457A Service Manual Part No. 03457-90011, May 1986 # Section IV, Performance Tests # # 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. # # There are 4 tests with a TUR less than 4 # 30mV, 1kHz TUR 3.8615 # 1.9 MOhm, 4W TUR 3.8089 # 19 kOhm, 2W TUR 3.9482 # 1.9 MOhm, 2W TUR 3.8089 # STEP FSC RANGE NOMINAL TOLERANCE MOD1 MOD2 3 4 CON 1.001 ASK- R Q N P F W 1.002 MMFC C2 1.003 HEAD PRELIMINARY INSTRUCTIONS 1.004 DISP Allow AT LEAST one hour of warm-up time for the UUT 1.004 DISP before running these tests. 1.005 DISP Before verifying the UUT, check the FUSE. 1.005 DISP Connect the UUT to IEEE-488 port 1 on the PC. 1.006 IEEE RESET;TERM FRONT;NPLC 10;NDIG 6;TRIG HOLD;END ALWAYS 1.007 HEAD {DC VOLTAGE} 1.008 DISP Connect the 5700A and the UUT as follows: 1.008 DISP [32] 5700A OUTPUT HI to UUT INPUT HI 1.008 DISP [32] 5700A OUTPUT LO to UUT INPUT LO 1.008 DISP [32] 5700A SENSE HI to UUT SENSE HI 1.008 DISP [32] 5700A SENSE HI to UUT SENSE LO 1.008 DISP [32] 5700A AUX CURRENT OUTPUT to UUT INPUT I 1.009 HEAD {DC VOLTAGE} 1.010 HEAD DC VOLTAGE: {30mV RANGE} 1.011 IEEE DCV 30e-3 1.012 5700 0.00000V S 2W 1.013 IEEE TRIG SGL[I]TRIG SGL[I] 1.014 MATH MEM = MEM / 1e-3 1.015 MEME 1.016 MEMC 30 mV 0.00385U 2.001 5700 30.00000mV S 2W 2.002 IEEE TRIG SGL[I]TRIG SGL[I] 2.003 MATH MEM = MEM / 1e-3 2.004 MEME 2.005 MEMC 30 mV 0.00520U 3.001 HEAD DC VOLTAGE: {300mV RANGE} 3.002 IEEE DCV 300e-3 3.003 5700 0.0000mV S 2W 3.004 IEEE TRIG SGL[I]TRIG SGL[I] 3.005 MATH MEM = MEM / 1e-3 3.006 MEME 3.007 MEMC 300 mV 0.0040U 4.001 5700 300.0000mV S 2W 4.002 IEEE TRIG SGL[I]TRIG SGL[I] 4.003 MATH MEM = MEM / 1e-3 4.004 MEME 4.005 MEMC 300 mV 0.0145U 5.001 HEAD DC VOLTAGE: {3V RANGE} 5.002 IEEE DCV 3 5.003 5700 0.000000V S 2W 5.004 IEEE TRIG SGL[I]TRIG SGL[I] 5.005 MEME 5.006 MEMC 3 V 0.000007U 6.001 5700 3.000000V S 2W 6.002 IEEE TRIG SGL[I]TRIG SGL[I] 6.003 MEME 6.004 MEMC 3 V 0.000082U 7.001 5700 2.000000V S 2W 7.002 IEEE TRIG SGL[I]TRIG SGL[I] 7.003 MEME 7.004 MEMC 3 V 0.000057U 8.001 5700 1.000000V S 2W 8.002 IEEE TRIG SGL[I]TRIG SGL[I] 8.003 MEME 8.004 MEMC 3 V 0.000032U 9.001 5700 -1.000000V S 2W 9.002 IEEE TRIG SGL[I]TRIG SGL[I] 9.003 MEME 9.004 MEMC 3 V 0.000032U 10.001 5700 -2.000000V S 2W 10.002 IEEE TRIG SGL[I]TRIG SGL[I] 10.003 MEME 10.004 MEMC 3 V 0.000057U 11.001 5700 -3.000000V S 2W 11.002 IEEE TRIG SGL[I]TRIG SGL[I] 11.003 MEME 11.004 MEMC 3 V 0.000082U 12.001 HEAD DC VOLTAGE: {30V RANGE} 12.002 IEEE DCV 30 12.003 5700 0.00000V S 2W 12.004 IEEE TRIG SGL[I]TRIG SGL[I] 12.005 MEME 12.006 MEMC 30 V 0.00020U 13.001 5700 30.00000V S 2W 13.002 IEEE TRIG SGL[I]TRIG SGL[I] 13.003 MEME 13.004 MEMC 30 V 0.00140U 14.001 HEAD DC VOLTAGE: {300V RANGE} 14.002 IEEE DCV 300 14.003 IEEE NDIG 6 14.004 5700 0.0000V S 2W 14.005 IEEE TRIG SGL[I]TRIG SGL[I] 14.006 MEME 14.007 MEMC 300 V 0.0007U 15.001 5700 300.0000V S 2W 15.002 IEEE TRIG SGL[I]TRIG SGL[I] 15.003 MEME 15.004 MEMC 300 V 0.0172U 16.001 5700 * S # AC Voltage Performance Tests are 90 day limits. 16.002 HEAD {AC VOLTAGE} 16.003 HEAD AC VOLTAGE: {30mV RANGE} 16.004 IEEE ACV 30e-3;ACAL 2;TRIG SGL[I] 16.005 5700 30.00000mV 1kH S 2W 16.006 IEEE TRIG SGL[I]TRIG SGL[I] 16.007 MATH MEM = MEM / 1e-3 16.008 MEME 16.009 MEMC 30 mV 0.05020U 1kH #! WARNING: Test Tol 5.02e-005, Sys Tol 1.3e-005, TUR 3.8615 (< 4.00). 17.001 HEAD AC VOLTAGE: {300mV RANGE} 17.002 IEEE ACV 300e-3 17.003 5700 30.0000mV 1kH S 2W 17.004 IEEE TRIG SGL[I]TRIG SGL[I] 17.005 MATH MEM = MEM / 1e-3 17.006 MEME 17.007 MEMC 300 mV 0.1510U 1kH 18.001 5700 300.0000mV 1kH S 2W 18.002 IEEE TRIG SGL[I]TRIG SGL[I] 18.003 MATH MEM = MEM / 1e-3 18.004 MEME 18.005 MEMC 300 mV 0.5020U 1kH 19.001 HEAD AC VOLTAGE: {3V RANGE} 19.002 IEEE ACV 3 19.003 5700 0.300000V 1kH S 2W 19.004 IEEE TRIG SGL[I]TRIG SGL[I] 19.005 MEME 19.006 MEMC 3 V 0.001510U 1kH 20.001 5700 1.000000V 1kH S 2W 20.002 IEEE TRIG SGL[I]TRIG SGL[I] 20.003 MEME 20.004 MEMC 3 V 0.002420U 1kH 21.001 5700 2.000000V 1kH S 2W 21.002 IEEE TRIG SGL[I]TRIG SGL[I] 21.003 MEME 21.004 MEMC 3 V 0.003720U 1kH 22.001 5700 3.000000V 1kH S 2W 22.002 IEEE TRIG SGL[I]TRIG SGL[I] 22.003 MEME 22.004 MEMC 3 V 0.005100U 1kH 23.001 HEAD AC VOLTAGE: {30V RANGE} 23.002 IEEE ACV 30 23.003 5700 3.00000V 1kH S 2W 23.004 IEEE TRIG SGL[I]TRIG SGL[I] 23.005 MEME 23.006 MEMC 30 V 0.01510U 1kH 24.001 5700 30.00000V 1kH S 2W 24.002 IEEE TRIG SGL[I]TRIG SGL[I] 24.003 MEME 24.004 MEMC 30 V 0.05020U 1kH 25.001 HEAD AC VOLTAGE: {300V RANGE} 25.002 IEEE ACV 300 25.003 5700 300.0000V 1kH S 2W 25.004 IEEE TRIG SGL[I]TRIG SGL[I] 25.005 MEME 25.006 MEMC 300 V 0.6820U 1kH 26.001 HEAD {AC VOLTAGE FREQUENCY RESPONSE} 26.002 HEAD AC VOLTAGE FREQUENCY RESPONSE: {300mV RANGE} 26.003 IEEE ACV 300e-3;ACBAND 5000 26.004 5700 30.0000mV 1MH S 2W 26.005 IEEE TRIG SGL[I]TRIG SGL[I] 26.006 MATH MEM = MEM / 1e-3 26.007 MEME 26.008 MEMC 300 mV 9.6880U 1MH 27.001 5700 30.0000mV 300kH S 2W 27.002 IEEE TRIG SGL[I]TRIG SGL[I] 27.003 MATH MEM = MEM / 1e-3 27.004 MEME 27.005 MEMC 300 mV 1.9180U 300kH 28.001 5700 30.0000mV 100kH S 2W 28.002 IEEE TRIG SGL[I]TRIG SGL[I] 28.003 MATH MEM = MEM / 1e-3 28.004 MEME 28.005 MEMC 300 mV 0.4080U 100kH 29.001 5700 30.0000mV 20kH S 2W 29.002 IEEE TRIG SGL[I]TRIG SGL[I] 29.003 MATH MEM = MEM / 1e-3 29.004 MEME 29.005 MEMC 300 mV 0.1510U 20kH 30.001 5700 30.0000mV 6.5kH S 2W 30.002 IEEE TRIG SGL[I]TRIG SGL[I] 30.003 MATH MEM = MEM / 1e-3 30.004 MEME 30.005 MEMC 300 mV 0.1510U 6.5kH 31.001 5700 30.0000mV 400H S 2W 31.002 IEEE TRIG SGL[I]TRIG SGL[I] 31.003 MATH MEM = MEM / 1e-3 31.004 MEME 31.005 MEMC 300 mV 0.1510U 400H 32.001 5700 300.0000mV 1MH S 2W 32.002 IEEE TRIG SGL[I]TRIG SGL[I] 32.003 MATH MEM = MEM / 1e-3 32.004 MEME 32.005 MEMC 300 mV 37.1200U 1MH 33.001 5700 300.0000mV 300kH S 2W 33.002 IEEE TRIG SGL[I]TRIG SGL[I] 33.003 MATH MEM = MEM / 1e-3 33.004 MEME 33.005 MEMC 300 mV 10.4500U 300kH 34.001 5700 300.0000mV 100kH S 2W 34.002 IEEE TRIG SGL[I]TRIG SGL[I] 34.003 MATH MEM = MEM / 1e-3 34.004 MEME 34.005 MEMC 300 mV 2.1900U 100kH 35.001 5700 300.0000mV 20kH S 2W 35.002 IEEE TRIG SGL[I]TRIG SGL[I] 35.003 MATH MEM = MEM / 1e-3 35.004 MEME 35.005 MEMC 300 mV 0.5320U 20kH 36.001 5700 300.0000mV 6.5kH S 2W 36.002 IEEE TRIG SGL[I]TRIG SGL[I] 36.003 MATH MEM = MEM / 1e-3 36.004 MEME 36.005 MEMC 300 mV 0.5320U 6.5kH 37.001 5700 300.0000mV 400H S 2W 37.002 IEEE TRIG SGL[I]TRIG SGL[I] 37.003 MATH MEM = MEM / 1e-3 37.004 MEME 37.005 MEMC 300 mV 0.5320U 400H 38.001 HEAD AC VOLTAGE FREQUENCY RESPONSE: {3V RANGE} 38.002 IEEE ACV 3 38.003 5700 0.300000V 1MH S 2W 38.004 IEEE TRIG SGL[I]TRIG SGL[I] 38.005 MEME 38.006 MEMC 3 V 0.096880U 1MH 39.001 5700 0.300000V 300kH S 2W 39.002 IEEE TRIG SGL[I]TRIG SGL[I] 39.003 MEME 39.004 MEMC 3 V 0.019180U 300kH 40.001 5700 0.300000V 100kH S 2W 40.002 IEEE TRIG SGL[I]TRIG SGL[I] 40.003 MEME 40.004 MEMC 3 V 0.004080U 100kH 41.001 5700 0.300000V 20kH S 2W 41.002 IEEE TRIG SGL[I]TRIG SGL[I] 41.003 MEME 41.004 MEMC 3 V 0.001510U 20kH 42.001 5700 0.300000V 6.5kH S 2W 42.002 IEEE TRIG SGL[I]TRIG SGL[I] 42.003 MEME 42.004 MEMC 3 V 0.001510U 6.5kH 43.001 5700 0.300000V 400H S 2W 43.002 IEEE TRIG SGL[I]TRIG SGL[I] 43.003 MEME 43.004 MEMC 3 V 0.001510U 400H 44.001 5700 3.000000V 1MH S 2W 44.002 IEEE TRIG SGL[I]TRIG SGL[I] 44.003 MEME 44.004 MEMC 3 V 0.371200U 1MH 45.001 5700 3.000000V 300kH S 2W 45.002 IEEE TRIG SGL[I]TRIG SGL[I] 45.003 MEME 45.004 MEMC 3 V 0.104500U 300kH 46.001 5700 3.000000V 100kH S 2W 46.002 IEEE TRIG SGL[I]TRIG SGL[I] 46.003 MEME 46.004 MEMC 3 V 0.021900U 100kH 47.001 5700 3.000000V 20kH S 2W 47.002 IEEE TRIG SGL[I]TRIG SGL[I] 47.003 MEME 47.004 MEMC 3 V 0.005320U 20kH 48.001 5700 3.000000V 6.5kH S 2W 48.002 IEEE TRIG SGL[I]TRIG SGL[I] 48.003 MEME 48.004 MEMC 3 V 0.005320U 6.5kH 49.001 5700 3.000000V 400H S 2W 49.002 IEEE TRIG SGL[I]TRIG SGL[I] 49.003 MEME 49.004 MEMC 3 V 0.005320U 400H 50.001 IEEE ACBAND 300 50.002 5700 3.000000V 100H S 2W 50.003 IEEE TRIG SGL[I]TRIG SGL[I] 50.004 MEME 50.005 MEMC 3 V 0.007420U 100H 51.001 5700 3.000000V 45H S 2W 51.002 IEEE TRIG SGL[I]TRIG SGL[I] 51.003 MEME 51.004 MEMC 3 V 0.017920U 45H 52.001 5700 3.000000V 20H S 2W 52.002 IEEE TRIG SGL [I] 52.003 MEME 52.004 MEMC 3 V 0.017920U 20H 53.001 HEAD AC VOLTAGE FREQUENCY RESPONSE: {300mV RANGE} 53.002 IEEE ACV 300e-3 53.003 5700 300.0000mV 100H S 2W 53.004 IEEE TRIG SGL[I]TRIG SGL[I] 53.005 MATH MEM = MEM / 1e-3 53.006 MEME 53.007 MEMC 300 mV 0.7420U 100H 54.001 5700 300.0000mV 45H S 2W 54.002 IEEE TRIG SGL[I]TRIG SGL[I] 54.003 MATH MEM = MEM / 1e-3 54.004 MEME 54.005 MEMC 300 mV 1.7920U 45H 55.001 5700 300.0000mV 20H S 2W 55.002 IEEE TRIG SGL[I]TRIG SGL[I] 55.003 MATH MEM = MEM / 1e-3 55.004 MEME 55.005 MEMC 300 mV 1.7920U 20H 56.001 5700 * S 56.002 HEAD {DC CURRENT} 56.003 HEAD DC CURRENT: {300uA RANGE} 56.004 IEEE DCI 300e-6 56.005 ACC 0.0000uA 1e-6U 56.006 IEEE TRIG SGL[I]TRIG SGL[I] 56.007 MATH MEM = MEM / 1e-6 56.008 MEME 56.009 MEMC 300 uA 0.0104U 57.001 5700 300.0000uA S 2W 57.002 IEEE TRIG SGL[I]TRIG SGL[I] 57.003 MATH MEM = MEM / 1e-6 57.004 MEME 57.005 MEMC 300 uA 0.1304U 58.001 5700 * S 58.002 HEAD DC CURRENT: {3mA RANGE} 58.003 IEEE DCI 3e-3 58.004 ACC 0.000000mA 1e-6U 58.005 IEEE TRIG SGL[I]TRIG SGL[I] 58.006 MATH MEM = MEM / 1e-3 58.007 MEME 58.008 MEMC 3 mA 0.000104U 59.001 5700 3.000000mA S 2W 59.002 IEEE TRIG SGL[I]TRIG SGL[I] 59.003 MATH MEM = MEM / 1e-3 59.004 MEME 59.005 MEMC 3 mA 0.001304U 60.001 5700 * S 60.002 HEAD DC CURRENT: {30mA RANGE} 60.003 IEEE DCI 30e-3 60.004 ACC 0.00000mA 1e-6U 60.005 IEEE TRIG SGL[I]TRIG SGL[I] 60.006 MATH MEM = MEM / 1e-3 60.007 MEME 60.008 MEMC 30 mA 0.00104U 61.001 5700 30.00000mA S 2W 61.002 IEEE TRIG SGL[I]TRIG SGL[I] 61.003 MATH MEM = MEM / 1e-3 61.004 MEME 61.005 MEMC 30 mA 0.01304U 62.001 5700 * S 62.002 HEAD DC CURRENT: {300mA RANGE} 62.003 IEEE DCI 300e-3 62.004 ACC 0.0000mA 1e-6U 62.005 IEEE TRIG SGL[I]TRIG SGL[I] 62.006 MATH MEM = MEM / 1e-3 62.007 MATH MEM1 = 0 62.008 MEME 62.009 MEMC 300 mA 0.0204U 63.001 5700 300.0000mA S 2W 63.002 IEEE TRIG SGL[I]TRIG SGL[I] 63.003 MATH MEM = MEM / 1e-3 63.004 MEME 63.005 MEMC 300 mA 0.2604U 64.001 5700 * S 64.002 HEAD DC CURRENT: {1A RANGE} 64.003 IEEE DCI 1.5 64.004 ACC 0.000000A 1e-6U 64.005 IEEE TRIG SGL[I]TRIG SGL[I] 64.006 MATH MEM1 = 0 64.007 MEME 64.008 MEMC 1 A 0.000604U 65.001 5700 1.000000A S 2W 65.002 IEEE TRIG SGL[I]TRIG SGL[I] 65.003 MEME 65.004 MEMC 1 A 0.001304U 66.001 5700 * S # AC Current Performance Tests are 90 day limits. 66.002 HEAD {AC CURRENT} 66.003 HEAD AC CURRENT: {30mA RANGE} 66.004 IEEE ACI 30e-3 66.005 5700 30.00000mA 1kH S 2W 66.006 IEEE TRIG SGL[I]TRIG SGL[I] 66.007 MATH MEM = MEM / 1e-3 66.008 MEME 66.009 MEMC 30 mA 0.10300U 1kH 67.001 HEAD AC CURRENT: {300mA RANGE} 67.002 IEEE ACI 300e-3 67.003 5700 300.0000mA 1kH S 2W 67.004 IEEE TRIG SGL[I]TRIG SGL[I] 67.005 MATH MEM = MEM / 1e-3 67.006 MEME 67.007 MEMC 300 mA 1.0300U 1kH 68.001 HEAD AC CURRENT: {1A RANGE} 68.002 IEEE ACI 1.5 68.003 5700 1.000000A 1kH S 2W 68.004 IEEE TRIG SGL[I]TRIG SGL[I] 68.005 MEME 68.006 MEMC 1 A 0.005300U 1kH 69.001 5700 * S 69.002 HEAD {4-WIRE RESISTANCE} 69.003 HEAD 4-WIRE RESISTANCE: {30 Ohm RANGE} 69.004 IEEE OHMF 30 69.005 5700 0.00000Z S 4W 69.006 IEEE [D2000]TRIG SGL[I]TRIG SGL[I] 69.007 MEME 69.008 MEMC 30 Z 0.00335U # 19 Ohms used in lieu of 30 Ohms. 70.001 5700 19.00000Z S 4W 70.002 IEEE [D2000]TRIG SGL[I]TRIG SGL[I] 70.003 MEME 70.004 TOL 0.0075% 0.00335U 70.005 MEMC 30 Z TOL 71.001 HEAD 4-WIRE RESISTANCE: {300 Ohm RANGE} 71.002 IEEE OHMF 300 71.003 5700 0.0000Z S 4W 71.004 IEEE [D2000]TRIG SGL[I]TRIG SGL[I] 71.005 MEME 71.006 MEMC 300 Z 0.0035U # 190 Ohms used in lieu of 300 Ohms. 72.001 5700 190.0000Z S 4W 72.002 IEEE [D2000]TRIG SGL[I]TRIG SGL[I] 72.003 MEME 72.004 MEMC 300 Z .0055% .0035U 73.001 HEAD 4-WIRE RESISTANCE: {3 kOhm RANGE} 73.002 IEEE OHMF 3e+3 73.003 5700 0.000000kZ S 4W 73.004 IEEE [D2000]TRIG SGL[I]TRIG SGL[I] 73.005 MATH MEM = MEM / 1e+3 73.006 MEME 73.007 MEMC 3 kZ 0.000007U # 1.9 kOhms used in lieu of 3 kOhms. 74.001 5700 1.900000kZ S 4W 74.002 IEEE [D2000]TRIG SGL[I]TRIG SGL[I] 74.003 MATH MEM = MEM / 1e+3 74.004 MEME 74.005 TOL 0.005% 0.000007U 74.006 MEMC 3 kZ TOL 75.001 HEAD 4-WIRE RESISTANCE: {30 kOhm RANGE} 75.002 IEEE OHMF 30e+3 75.003 5700 0.00000kZ S 4W 75.004 IEEE [D2000]TRIG SGL[I]TRIG SGL[I] 75.005 MATH MEM = MEM / 1e+3 75.006 MEME 75.007 MEMC 30 kZ 0.00007U # 19 kOhms used in lieu of 30 kOhms. 76.001 5700 19.00000kZ S 4W 76.002 IEEE [D2000]TRIG SGL[I]TRIG SGL[I] 76.003 MATH MEM = MEM / 1e+3 76.004 MEME 76.005 MEMC 30 kZ .005% .00007U 77.001 HEAD 4-WIRE RESISTANCE: {300 kOhm RANGE} 77.002 IEEE OHMF 300e+3 77.003 5700 0.0000kZ S 4W 77.004 IEEE [D2000]TRIG SGL[I]TRIG SGL[I] 77.005 MATH MEM = MEM / 1e+3 77.006 MEME 77.007 MEMC 300 kZ 0.0008U # 190 kOhms used in lieu of 300 kOhms. 78.001 5700 190.0000kZ S 4W 78.002 IEEE [D2000]TRIG SGL[I]TRIG SGL[I] 78.003 MATH MEM = MEM / 1e+3 78.004 MEME 78.005 MEMC 300 kZ .005% .0008U 79.001 HEAD 4-WIRE RESISTANCE: {3 MOhm RANGE} 79.002 IEEE OHMF 3e+6 79.003 5700 0.00000kZ S 4W 79.004 IEEE [D2000]TRIG SGL[I]TRIG SGL[I] 79.005 MATH MEM = MEM / 1e+6 79.006 MEME 79.007 MEMC 3 MZ 0.000014U # 1.9 MOhms used in lieu of 3 MOhms. 80.001 5700 1.900000MZ S 4W 80.002 IEEE [D2000]TRIG SGL[I]TRIG SGL[I] 80.003 MATH MEM = MEM / 1e+6 80.004 MEME 80.005 TOL 0.0065% 0.000014U 80.006 MEMC 3 MZ TOL #! WARNING: Test Tol 137.5, Sys Tol 36.1, TUR 3.8089 (< 4.00). 81.001 HEAD 4-WIRE RESISTANCE: {30 MOhm RANGE} 81.002 IEEE OHMF 30e+6 81.003 5700 0.00000MZ S 4W 81.004 IEEE [D2000]TRIG SGL[I]TRIG SGL[I] 81.005 MATH MEM = MEM / 1e+6 81.006 MEME 81.007 MEMC 30 MZ 0.00083U # 19 MOhms used in lieu of 30 MOhms. 82.001 5700 19.00000MZ S 4W 82.002 IEEE [D2000]TRIG SGL[I]TRIG SGL[I] 82.003 MATH MEM = MEM / 1e+6 82.004 MEME 82.005 MEMC 30 MZ .04% .00083U 83.001 5700 * S 83.002 HEAD {2-WIRE RESISTANCE} 83.003 DISP Connect the 5700A and the UUT as follows: 83.003 DISP [32] 5700A OUTPUT HI to UUT INPUT HI 83.003 DISP [32] 5700A OUTPUT LO to UUT INPUT LO 83.003 DISP [32] 5700A SENSE HI to UUT INPUT HI 83.003 DISP [32] 5700A SENSE HI to UUT INPUT LO 83.004 HEAD 2-WIRE RESISTANCE: {30 Ohm RANGE} 83.005 IEEE OHM 30 83.006 5700 0.00000Z S CW 83.007 IEEE TRIG SGL[I]TRIG SGL[I] 83.008 MEME 83.009 MEMC 30 Z 0.20335U # 19 Ohms used in lieu of 30 Ohms. 84.001 5700 19.00000Z S CW 84.002 IEEE TRIG SGL[I]TRIG SGL[I] 84.003 MEME 84.004 TOL 0.0075% 0.20335U 84.005 MEMC 30 Z TOL 85.001 HEAD 2-WIRE RESISTANCE: {300 Ohm RANGE} 85.002 IEEE OHM 300 85.003 5700 0.0000Z S CW 85.004 IEEE TRIG SGL[I]TRIG SGL[I] 85.005 MEME 85.006 MEMC 300 Z 0.2035U # 190 Ohms used in lieu of 300 Ohms. 86.001 5700 190.0000Z S CW 86.002 IEEE TRIG SGL[I]TRIG SGL[I] 86.003 MEME 86.004 MEMC 300 Z .0055% .2035U 87.001 HEAD 2-WIRE RESISTANCE: {3 kOhm RANGE} 87.002 IEEE OHM 3e+3 87.003 5700 0.000000kZ S CW 87.004 IEEE TRIG SGL[I]TRIG SGL[I] 87.005 MATH MEM = MEM / 1e+3 87.006 MEME 87.007 MEMC 3 kZ 0.000207U # 1.9 kOhms used in lieu of 3 kOhms. 88.001 5700 1.900000kZ S CW 88.002 IEEE TRIG SGL[I]TRIG SGL[I] 88.003 MATH MEM = MEM / 1e+3 88.004 MEME 88.005 TOL 0.005% 0.000207U 88.006 MEMC 3 kZ TOL 89.001 HEAD 2-WIRE RESISTANCE: {30 kOhm RANGE} 89.002 IEEE OHM 30e+3 89.003 5700 0.00000kZ S CW 89.004 IEEE TRIG SGL[I]TRIG SGL[I] 89.005 MATH MEM = MEM / 1e+3 89.006 MEME 89.007 MEMC 30 kZ 0.00027U # 19 kOhms used in lieu of 30 kOhms. 90.001 5700 19.00000kZ S CW 90.002 IEEE TRIG SGL[I]TRIG SGL[I] 90.003 MATH MEM = MEM / 1e+3 90.004 MEME 90.005 MEMC 30 kZ .005% .00027U #! WARNING: Test Tol 1.22, Sys Tol 0.309, TUR 3.9482 (< 4.00). 91.001 HEAD 2-WIRE RESISTANCE: {300 kOhm RANGE} 91.002 IEEE OHM 300e+3 91.003 5700 0.0000kZ S CW 91.004 IEEE TRIG SGL[I]TRIG SGL[I] 91.005 MATH MEM = MEM / 1e+3 91.006 MEME 91.007 MEMC 300 kZ 0.0010U # 190 kOhms used in lieu of 300 kOhms. 92.001 5700 190.0000kZ S 2W 92.002 IEEE TRIG SGL[I]TRIG SGL[I] 92.003 MATH MEM = MEM / 1e+3 92.004 MEME 92.005 MEMC 300 kZ .005% .0010U 93.001 HEAD 2-WIRE RESISTANCE: {3 MOhm RANGE} 93.002 IEEE OHM 3e+6 93.003 5700 0.000000MZ S CW 93.004 IEEE TRIG SGL[I]TRIG SGL[I] 93.005 MATH MEM = MEM / 1e+6 93.006 MEME 93.007 MEMC 3 MZ 0.000014U # 1.9 MOhms used in lieu of 3 MOhms. 94.001 5700 1.900000MZ S 2W 94.002 IEEE TRIG SGL[I]TRIG SGL[I] 94.003 MATH MEM = MEM / 1e+6 94.004 MEME 94.005 TOL 0.0065% 0.000014U 94.006 MEMC 3 MZ TOL #! WARNING: Test Tol 137.5, Sys Tol 36.1, TUR 3.8089 (< 4.00). 95.001 HEAD 2-WIRE RESISTANCE: {30 MOhm RANGE} 95.002 IEEE OHM 30e+6 95.003 5700 0.00000MZ S CW 95.004 IEEE TRIG SGL[I]TRIG SGL[I] 95.005 MATH MEM = MEM / 1e+6 95.006 MEME 95.007 MEMC 30 MZ 0.00083U # 19 MOhms used in lieu of 30 MOhms. 96.001 5700 19.00000MZ S 2W 96.002 IEEE TRIG SGL[I]TRIG SGL[I] 96.003 MATH MEM = MEM / 1e+6 96.004 MEME 96.005 MEMC 30 MZ .04% .00083U 97.001 5700 * S 97.002 DISP Disconnect the 5700A from the UUT. 97.003 HEAD {REAR INPUTS} 97.004 OPBR Would you like to perform rear input tests? 97.005 JMPT 97.008 97.006 RSLT =Not Tested 97.007 JMP 121.004 97.008 HEAD {DC VOLTAGE} REAR INPUTS 97.009 IEEE TERM REAR 97.010 DISP Connect the 5700A and the UUT as follows: 97.010 DISP [32] 5700A OUTPUT V Ohm A HI to UUT REAR INPUT HI 97.010 DISP [32] 5700A OUTPUT V Ohm A LO to UUT REAR INPUT LO 97.010 DISP [32] 5700A SENSE V Ohm HI to UUT REAR SENSE HI 97.010 DISP [32] 5700A SENSE V Ohm HI to UUT REAR SENSE LO 97.010 DISP [32] 5700A AUX CURRENT OUTPUT to UUT REAR INPUT I 97.011 HEAD DC VOLTAGE REAR INPUTS: {30mV RANGE} 97.012 IEEE DCV 30e-3 97.013 5700 0.00000mV S 2W 97.014 IEEE TRIG SGL[I]TRIG SGL[I] 97.015 MATH MEM = MEM / 1e-3 97.016 MEME 97.017 MEMC mV 0.00385U 98.001 HEAD DC VOLTAGE REAR INPUTS: {300mV RANGE} 98.002 IEEE DCV 300e-3 98.003 5700 0.0000mV S 2W 98.004 IEEE TRIG SGL[I]TRIG SGL[I] 98.005 MATH MEM = MEM / 1e-3 98.006 MEME 98.007 MEMC mV 0.0040U 99.001 HEAD DC VOLTAGE REAR INPUTS: {3V RANGE} 99.002 IEEE DCV 3 99.003 5700 0.000000V S 2W 99.004 IEEE TRIG SGL[I]TRIG SGL[I] 99.005 MEME 99.006 MEMC V 0.000007U 100.001 HEAD DC VOLTAGE REAR INPUTS: {30V RANGE} 100.002 IEEE DCV 30 100.003 5700 0.00000V S 2W 100.004 IEEE TRIG SGL[I]TRIG SGL[I] 100.005 MEME 100.006 MEMC V 0.00020U 101.001 HEAD DC VOLTAGE REAR INPUTS: {300V RANGE} 101.002 IEEE DCV 300 101.003 5700 0.0000V S 2W 101.004 IEEE TRIG SGL[I]TRIG SGL[I] 101.005 MEME 101.006 MEMC V 0.0007U 102.001 5700 * S 102.002 HEAD {DC CURRENT} REAR INPUTS 102.003 HEAD DC CURRENT REAR INPUTS: {300uA RANGE} 102.004 IEEE DCI 300e-6 102.005 ACC 0.0000uA 1e-6U 102.006 IEEE TRIG SGL[I]TRIG SGL[I] 102.007 MATH MEM = MEM / 1e-6 102.008 MEME 102.009 MEMC uA 0.0104U 103.001 HEAD DC CURRENT REAR INPUTS: {3mA RANGE} 103.002 IEEE DCI 3e-3 103.003 ACC 0.000000mA 1e-6U 103.004 IEEE TRIG SGL[I]TRIG SGL[I] 103.005 MATH MEM = MEM / 1e-3 103.006 MEME 103.007 MEMC mA 0.000104U 104.001 HEAD DC CURRENT REAR INPUTS: {30mA RANGE} 104.002 IEEE DCI 30e-3 104.003 ACC 0.00000mA 1e-6U 104.004 IEEE TRIG SGL[I]TRIG SGL[I] 104.005 MATH MEM = MEM / 1e-3 104.006 MEME 104.007 MEMC mA 0.00104U 105.001 HEAD DC CURRENT REAR INPUTS: {300mA RANGE} 105.002 IEEE DCI 300e-3 105.003 ACC 0.0000mA 1e-6U 105.004 IEEE TRIG SGL[I]TRIG SGL[I] 105.005 MATH MEM = MEM / 1e-3 105.006 MEME 105.007 MEMC mA 0.0204U 106.001 HEAD DC CURRENT REAR INPUTS: {1A RANGE} 106.002 IEEE DCI 1.5 106.003 ACC 0.000000A 1e-6U 106.004 IEEE TRIG SGL[I]TRIG SGL[I] 106.005 MEME 106.006 MEMC A 0.000604U 107.001 HEAD {4-WIRE RESISTANCE} REAR INPUTS 107.002 HEAD 4-WIRE RESISTANCE REAR INPUTS: {30 Ohm RANGE} 107.003 IEEE OHM 30 107.004 5700 0.00000Z S 4W 107.005 IEEE TRIG SGL[I]TRIG SGL[I] 107.006 MEME 107.007 MEMC Z 0.00335U 108.001 HEAD 4-WIRE RESISTANCE REAR INPUTS: {300 Ohm RANGE} 108.002 IEEE OHM 300 108.003 5700 0.0000Z S 4W 108.004 IEEE TRIG SGL[I]TRIG SGL[I] 108.005 MEME 108.006 MEMC Z 0.0035U 109.001 HEAD 4-WIRE RESISTANCE REAR INPUTS: {3 kOhm RANGE} 109.002 IEEE OHM 3e+3 109.003 5700 0.000000kZ S 4W 109.004 IEEE TRIG SGL[I]TRIG SGL[I] 109.005 MATH MEM = MEM / 1e+3 109.006 MEME 109.007 MEMC kZ 0.000007U 110.001 HEAD 4-WIRE RESISTANCE REAR INPUTS: {30 kOhm RANGE} 110.002 IEEE OHM 30e+3 110.003 5700 0.00000kZ S 4W 110.004 IEEE TRIG SGL[I]TRIG SGL[I] 110.005 MATH MEM = MEM / 1e+3 110.006 MEME 110.007 MEMC kZ 0.00007U 111.001 HEAD 4-WIRE RESISTANCE REAR INPUTS: {300 kOhm RANGE} 111.002 IEEE OHM 300e+3 111.003 5700 0.0000kZ S 4W 111.004 IEEE TRIG SGL[I]TRIG SGL[I] 111.005 MATH MEM = MEM / 1e+3 111.006 MEME 111.007 MEMC kZ 0.0008U 112.001 HEAD 4-WIRE RESISTANCE REAR INPUTS: {3 MOhm RANGE} 112.002 IEEE OHM 3e+6 112.003 5700 0.000000MZ S 4W 112.004 IEEE TRIG SGL[I]TRIG SGL[I] 112.005 MATH MEM = MEM / 1e+6 112.006 MEME 112.007 MEMC MZ 0.000014U 113.001 HEAD 4-WIRE RESISTANCE REAR INPUTS: {30 MOhm RANGE} 113.002 IEEE OHM 30e+6 113.003 5700 0.00000MZ S 4W 113.004 IEEE TRIG SGL[I]TRIG SGL[I] 113.005 MATH MEM = MEM / 1e+6 113.006 MEME 113.007 MEMC MZ 0.00083U 114.001 5700 * S 114.002 HEAD {2-WIRE RESISTANCE} REAR INPUTS 114.003 DISP Connect the 5700A and the UUT as follows: 114.003 DISP [32] 5700A OUTPUT V Ohm A HI to UUT REAR INPUT HI 114.003 DISP [32] 5700A OUTPUT V Ohm A LO to UUT REAR INPUT LO 114.003 DISP [32] 5700A SENSE V Ohm HI to UUT REAR INPUT HI 114.003 DISP [32] 5700A SENSE V Ohm HI to UUT REAR INPUT LO 114.004 HEAD 2-WIRE RESISTANCE REAR INPUTS: {30 Ohm RANGE} 114.005 IEEE OHM 30 114.006 5700 0.00000Z S CW 114.007 IEEE TRIG SGL[I]TRIG SGL[I] 114.008 MEME 114.009 MEMC Z 0.20335U 115.001 HEAD 2-WIRE RESISTANCE REAR INPUTS: {300 Ohm RANGE} 115.002 IEEE OHM 300 115.003 5700 0.0000Z S CW 115.004 IEEE TRIG SGL[I]TRIG SGL[I] 115.005 MEME 115.006 MEMC Z 0.2035U 116.001 HEAD 2-WIRE RESISTANCE REAR INPUTS: {3 kOhm RANGE} 116.002 IEEE OHM 3e+3 116.003 5700 0.000000kZ S CW 116.004 IEEE TRIG SGL[I]TRIG SGL[I] 116.005 MATH MEM = MEM / 1e+3 116.006 MEME 116.007 MEMC kZ 0.000207U 117.001 HEAD 2-WIRE RESISTANCE REAR INPUTS: {30 kOhm RANGE} 117.002 IEEE OHM 30e+3 117.003 5700 0.00000kZ S CW 117.004 IEEE TRIG SGL[I]TRIG SGL[I] 117.005 MATH MEM = MEM / 1e+3 117.006 MEME 117.007 MEMC kZ 0.00027U 118.001 HEAD 2-WIRE RESISTANCE REAR INPUTS: {300 kOhm RANGE} 118.002 IEEE OHM 300e+3 118.003 5700 0.0000kZ S CW 118.004 IEEE TRIG SGL[I]TRIG SGL[I] 118.005 MATH MEM = MEM / 1e+3 118.006 MEME 118.007 MEMC kZ 0.0010U 119.001 HEAD 2-WIRE RESISTANCE REAR INPUTS: {3 MOhm RANGE} 119.002 IEEE OHM 3e+6 119.003 5700 0.000000MZ S CW 119.004 IEEE TRIG SGL[I]TRIG SGL[I] 119.005 MATH MEM = MEM / 1e+6 119.006 MEME 119.007 MEMC MZ 0.000014U 120.001 HEAD 2-WIRE RESISTANCE REAR INPUTS: {30 MOhm RANGE} 120.002 IEEE OHM 30e+6 120.003 5700 0.00000MZ S CW 120.004 IEEE TRIG SGL[I]TRIG SGL[I] 120.005 MATH MEM = MEM / 1e+6 120.006 MEME 120.007 MEMC MZ 0.00083U 121.001 5700 * S 121.002 DISP Disconnect the 5700A from the UUT. 121.003 IEEE TERM FRONT 121.004 HEAD {FREQUENCY} 121.005 DISP Connect the PM 5191 to the UUT FRONT INPUT HI and LO 121.005 DISP using a BNC cable and a BNC to dual banana adapter. 121.006 IEEE ACV 3;FREQ 121.007 5191 20.00000H 1V -D SI S 121.008 IEEE TRIG SGL[I]TRIG SGL[I] 121.009 MEME 121.010 MEMC H 0.01000U 122.001 5191 1.000000MH 1V -D SI S 122.002 IEEE TRIG SGL[I]TRIG SGL[I] 122.003 MATH MEM = MEM / 1e+6 122.004 MEME 122.005 MEMC MH 0.000100U 123.001 5191 * S 123.002 IEEE RESET 123.003 DISP V E R I F I C A T I O N C O M P L E T E 123.004 END #! T.U.R.s less than 4.00: 4 #! T.U.R.s estimated using RANGE value: 0 #! T.U.R.s not calculated (ASK- U): 0 #! T.U.R.s not computable at compile time: 0 #! FOR JUSTIFICATION REFER TO COMMENTS FOLLOWING EACH TEST IN THIS LISTING.