User Contributed MET/CAL PROCEDURE ============================================================================= INSTRUMENT: Fluke 5200A INSTRUMENT: Fluke 5200A/5205A/5215A DATE: 27-Sep-96 AUTHOR: User Contributed REVISION: 1.0 ADJUSTMENT THRESHOLD: 70% NUMBER OF TESTS: 60 NUMBER OF LINES: 243 CONFIGURATION: Fluke 5790A CONFIGURATION: HP 8903B ============================================================================= STEP FSC RANGE NOMINAL TOLERANCE MOD1 MOD2 3 4 CON # This procedure was prepared using AFTO 33K8-4-835-1 (July 30, 1996) 1.001 ASK- R N P S M F W 1.002 ASK+ X 1.003 DISP Fluke 5200A/5205A/5215A AC Calibrator 1.004 OPBR Do you want to stop if the UUT is out of tolerance? 1.005 JMPT 1.006 1.006 ASK- A 1.007 DISP Connect UUT to 5790A INPUT 1 using 5-turn torroid 1.007 DISP cable and connect ground wire from UUT to 5790A. 1.007 DISP 1.007 DISP Set the CONTROL switch on the UUT to REM 1.007 DISP and the SENSE switch to INT. 1.008 DISP [7] DANGER!!! 1.008 DISP 1.008 DISP If you manually terminate this procedure, 1.008 DISP you must set the UUT output to STANDBY! 1.008 DISP 1.008 DISP Failure to do this could result in a 1.008 DISP painful but educational experience... 1.009 HEAD {Voltage Calibration} 1.010 IEEE * 1.011 IEEE 1E-3V10HN # Guardbanded measurement follows... (spec is 0.011) 1.012 5790 1.0000mV 0.0106U 10H I1 2W 2.001 IEEE 30H 2.002 5790 1.0000mV 0.0102U 30H I1 2W 3.001 IEEE 20E3H 3.002 5790 1.0000mV 0.0102U 20kH I1 2W 4.001 IEEE 100E3H 4.002 5790 1.0000mV 0.0205U 100kH I1 2W 5.001 IEEE 1E6H # Guardbanded measurement follows... (spec is 0.0333) 5.002 5790 1.0000mV 0.0320U 1MH I1 2W 6.001 IEEE 10E-3V10HN 6.002 5790 10.000mV 0.020U 10H I1 2W 7.001 IEEE 30H # Guardbanded measurement follows... (spec is 0.012) 7.002 5790 10.000mV 0.0116U 30H I1 2W 8.001 IEEE 20E3H 8.002 5790 10.000mV 0.012U 20kH I1 2W 9.001 IEEE 100E3H 9.002 5790 10.000mV 0.025U 100kH I1 2W 10.001 IEEE 1E6H # Guardbanded measurement follows... (spec is 0.063) 10.002 5790 10.000mV 0.0597U 1MH I1 2W 11.001 IEEE 100E-3V10HN 11.002 5790 100.00mV 0.11U 10H I1 2W 12.001 IEEE 30H # Guardbanded measurement follows... (spec is 0.03) 12.002 5790 100.00mV 0.0283U 30H I1 2W 13.001 IEEE 20E3H 13.002 5790 100.00mV 0.03U 20kH I1 2W 14.001 IEEE 100E3H # Guardbanded measurement follows... (spec is 0.07) 14.002 5790 100.00mV 0.0675U 100kH I1 2W 15.001 IEEE 1E6H # Guardbanded measurement follows... (spec is 0.36) 15.002 5790 100.00mV 0.3458U 1MH I1 2W 16.001 IEEE * 16.002 DISP [7]Remove the torroid cable and connect the UUT to the 16.002 DISP 5790A INPUT 2 connector, keeping the ground wire. 16.003 IEEE 1V10HN 16.004 5790 1.00000V 0.00105U 10H I2 2W 17.001 IEEE 30H # Guardbanded measurement follows... (spec is 0.00022) 17.002 5790 1.00000V 0.00021U 30H I2 2W 18.001 IEEE 20E3H 18.002 5790 1.00000V 0.00022U 20kH I2 2W 19.001 IEEE 100E3H 19.002 5790 1.00000V 0.00055U 100kH I2 2W 20.001 IEEE 1E6H 20.002 5790 1.00000V 0.0036U 1MH I2 2W 21.001 IEEE 10V10HN 21.002 5790 10.0000V 0.0105U 10H I2 2W 22.001 IEEE 30H # Guardbanded measurement follows... (spec is 0.0022) 22.002 5790 10.0000V 0.0021U 30H I2 2W 23.001 IEEE 20E3H 23.002 5790 10.0000V 0.0022U 20kH I2 2W 24.001 IEEE 100E3H 24.002 5790 10.0000V 0.0055U 100kH I2 2W 25.001 IEEE 1E6H # Guardbanded measurement follows... (spec is 0.036) 25.002 5790 10.0000V 0.034278U 1MH I2 2W 26.001 IEEE 100V10HN 26.002 5790 100.000V 0.105U 10H I2 2W 27.001 IEEE 30H # Guardbanded measurement follows... (spec is 0.022) 27.002 5790 100.000V 0.020955U 30H I2 2W 28.001 IEEE 20E3H 28.002 5790 100.000V 0.022U 20kH I2 2W 29.001 IEEE 100E3H 29.002 5790 100.000V 0.055U 100kH I2 2W 30.001 IEEE * 30.002 JMPT 35.004 Fluke 5200A 30.003 DISP [7]Connect the output cable from the Power Amplifier 30.003 DISP to the INPUT 2 connector on the 5790A. 30.003 DISP 30.003 DISP Set the MODE switch on the Power Amplifier to OPERATE. 30.004 IEEE [S250]1000V10HN 30.005 5790 1000.00V 2.05U 10H I2 2W 31.001 IEEE 30H 31.002 5790 1000.00V 0.42U 30H I2 2W 32.001 IEEE 20E3H 32.002 5790 1000.00V 0.42U 20kH I2 2W 33.001 IEEE 50E3H 33.002 5790 1000.00V 0.85U 50kH I2 2W 34.001 IEEE 100E3H # Guardbanded measurement follows... (spec is 1.1) 34.002 5790 1000.00V 1.025U 100kH I2 2W 35.001 IEEE * 35.002 HEAD {Frequency Calibration} 35.003 DISP [7]Remove previous connections and connect the UUT to 35.003 DISP the 5790A INPUT 2 connector, keeping the ground wire. 35.004 HEAD {Frequency Calibration} 35.005 IEEE 1V10HN 35.006 5790 10.00H 0.2U 1V I2 2W 36.001 IEEE 50H 36.002 5790 50.00H 0.6U 1V I2 2W 37.001 IEEE 100H 37.002 5790 100.0H 1.1U 1V I2 2W 38.001 IEEE 500H 38.002 5790 500.0H 6U 1V I2 2W 39.001 IEEE 1E3H 39.002 5790 1.000kH 0.011U 1V I2 2W 40.001 IEEE 5E3H 40.002 5790 5.000kH 0.06U 1V I2 2W 41.001 IEEE 10E3H 41.002 5790 10.00kH 0.11U 1V I2 2W 42.001 IEEE 50E3H 42.002 5790 50.00kH 0.6U 1V I2 2W 43.001 IEEE 100E3H 43.002 5790 100.0kH 1.1U 1V I2 2W 44.001 IEEE 500E3H 44.002 5790 500.0kH 18U 1V I2 2W 45.001 IEEE 1E6H 45.002 5790 1.000MH 0.033U 1V I2 2W 46.001 IEEE * 46.002 HEAD {Error Dial Calibration} 46.003 DISP [7]Set the CONTROL switch on the UUT to LOCAL, then 46.003 DISP set the dials for a 100 volt, 1 kHz output, and 46.003 DISP the MODE switch to OPERATE. 46.004 5790 100.000V 1kH I2 N 2W 46.005 MATH M[1]=MEM 46.006 DISP Set the VOLTAGE ERROR switch on the UUT to the 46.006 DISP X.1 position and carefully set the dial to "0" 46.007 5790 100.000V 1kH I2 N 2W 46.008 MATH MEM1=M[1] 46.009 MEME 46.010 MEMC 0 V 0.001U 47.001 DISP Set the VOLTAGE ERROR switch to the X1 position 47.002 5790 100.000V 1kH I2 N 2W 47.003 MATH MEM1=M[1] 47.004 MEME 47.005 MEMC 0 V 0.01U 48.001 DISP Set the VOLTAGE ERROR dial to +2.8 48.002 5790 100.000V 1kH I2 N 2W 48.003 MATH MEM1=M[1]*.972 48.004 MEME 48.005 MEMC 0 V 0.05% 49.001 DISP Set the VOLTAGE ERROR switch to the X.1 position 49.002 5790 100.000V 1kH I2 N 2W 49.003 MATH MEM1=M[1]*.9972 49.004 MEME 49.005 MEMC 0 V 0.05% 50.001 DISP Set the VOLTAGE ERROR dial to -2.8 50.002 5790 100.000V 1kH I2 N 2W 50.003 MATH MEM1=M[1]*1.0028 50.004 MEME 50.005 MEMC 0 V 0.05% 51.001 DISP Set the VOLTAGE ERROR switch to the X1 position 51.002 5790 100.000V 1kH I2 N 2W 51.003 MATH MEM1=M[1]*1.028 51.004 MEME 51.005 MEMC 0 V 0.05% 52.001 DISP Return the CONTROL switch on the UUT to REM... 52.001 DISP 52.001 DISP WARNING!!! Failure to do this step will be dangerous! 52.002 IEEE * 52.003 HEAD {Distortion} 52.004 DISP Connect the OUTPUT of the UUT to the HIGH INPUT 52.004 DISP of the HP 8903B Audio Analyzer. 52.005 IEEE 10V20HN[D2500] 52.006 IEEE [@8903]M3L0H0[D3000] 52.007 IEEE [TERM LF][@8903]T2[I] 52.008 MEME 52.009 MATH MEM=0 52.010 MEMC 0 Percent +0.04U 20H 53.001 IEEE 1E3HN 53.002 IEEE [@8903][TERM LF]T2[I] 53.003 MEME 53.004 MATH MEM=0 53.005 MEMC 0 Percent +0.04U 1KH 54.001 IEEE 10E3HN 54.002 IEEE [@8903][TERM LF]T2[I] 54.003 MEME 54.004 MATH MEM=0 54.005 MEMC 0 Percent +0.04U 10KH 55.001 IEEE 100E3HN 55.002 IEEE [@8903][TERM LF]T2[I] 55.003 MEME 55.004 MATH MEM=0 55.005 MEMC 0 Percent +0.04U 100KH 56.001 IEEE * 56.002 JMPT 60.001 Fluke 5200A 56.003 HEAD {Amplifier Distortion} 56.004 DISP [7]Remove the connection to the 8903B and connect the 56.004 DISP output of the Power Amplifier. 56.005 IEEE [S250]200V20HN 56.006 IEEE [@8903][TERM LF]T2[I] 56.007 MEME 56.008 MATH MEM=0 56.009 MEMC 0 Percent +0.09U 20H 57.001 IEEE 20E3HN 57.002 IEEE [@8903][TERM LF]T2[I] 57.003 MEME 57.004 MATH MEM=0 57.005 MEMC 0 Percent +0.09U 20KH 58.001 IEEE 50E3HN 58.002 IEEE [@8903][TERM LF]T2[I] 58.003 MEME 58.004 MATH MEM=0 58.005 MEMC 0 Percent +0.11U 50KH 59.001 IEEE 100E3HN 59.002 IEEE [@8903][TERM LF]T2[I] 59.003 MEME 59.004 MATH MEM=0 59.005 MEMC 0 Percent +0.14U 100KH 60.001 IEEE *