Fluke MET/CAL Procedure ============================================================================= INSTRUMENT: Omega OM501: (1 year) CAL VER /5500 INSTRUMENT: Omega OM502: (1 year) CAL VER /5500 INSTRUMENT: Omega OM503: (1 year) CAL VER /5500 DATE: 08-Sep-97 AUTHOR: Fluke Corporation REVISION: $Revision: 1.5 $ ADJUSTMENT THRESHOLD: 70% NUMBER OF TESTS: 53 NUMBER OF LINES: 222 CONFIGURATION: Fluke 5500A ============================================================================= # # Compatibility: # 5500/CAL 4.0 or 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 5500A 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 DISP {Procedure not formally tested with UUT.} 1.001 DISP {See procedure README file.} 1.002 ASK- R P F V 1.003 ASK+ K X 1.004 JMPT 1.006 OMEGA OM503: (1 year) CAL VER /5500 1.005 JMP 1.011 1.006 OPBR Does the OM503 version measure in degC? 1.007 JMPF 1.010 1.008 MATH M[1] = 1 1.009 JMP 1.011 1.010 MATH M[1] = -1 1.011 HEAD PRELIMINARY INSTRUCTIONS 1.012 DISP Warm-up time: 30 min. - REQUIRED 1.012 DISP Temperature: 21 - 25 degC 1.012 DISP Humidity: 45 to 65% 1.013 DISP [32] WARNING 1.013 DISP HIGH VOLTAGE is used or exposed during the performance 1.013 DISP of this calibration. DEATH ON CONTACT may result if 1.013 DISP personnel fail to observe safety precautions. 1.014 HEAD {MEASUREMENT: DMM Mode} 1.015 DISP Connect the 5500A to the UUT as follows: 1.015 DISP [32] 5500A NORMAL HI to UUT DMM H 1.015 DISP [32] 5500A NORMAL LO to UUT DMM L 1.016 HEAD {DC MEASUREMENT} 1.017 DISP Set the UUT to DC Voltage measurement. 1.018 HEAD DC MEASUREMENT: {20mV Range} 1.019 5500 20 20.000mV 0.050U 2W 2.001 5500 20 10.000mV 0.030U 2W 3.001 5500 20 0.000mV 0.010U 2W 4.001 5500 20 -10.000mV 0.030U 2W 5.001 5500 20 -20.000mV 0.050U 2W 6.001 HEAD DC MEASUREMENT: {200mV Range} 6.002 5500 200 200.000mV 0.45U 2W 7.001 HEAD DC MEASUREMENT: {2V Range} 7.002 5500 2 2.00000V 0.0025U 2W 8.001 HEAD DC MEASUREMENT: {20V Range} 8.002 5500 20 20.0000V 0.065U 2W 9.001 HEAD DC MEASUREMENT: {50V Range} 9.002 5500 50 50.0000V 0.20U 2W 10.001 HEAD {AC MEASUREMENT} 10.002 DISP Set the UUT to AC Voltage measurement. 10.003 HEAD AC MEASUREMENT: {2V Range} 10.004 5500 2 0.000V 0.0040U 2W 11.001 5500 2 2.000V 0.0120U 100H SI 2W 12.001 HEAD AC MEASUREMENT: {20V Range} 12.002 5500 20 20.00V 0.120U 100H SI 2W 13.001 HEAD AC MEASUREMENT: {200V Range} 13.002 5500 200 200.0V 1.2U 100H SI 2W 14.001 5500 250 250.0V 1.5U 100H SI 2W 15.001 HEAD {RESISTANCE MEASUREMENT} 15.002 DISP Set the UUT to Resistance measurement. 15.003 HEAD RESISTANCE MEASUREMENT: {2 MOhm Range} 15.004 5500 2 2.0000MZ 0.0045U 2W 16.001 HEAD RESISTANCE MEASUREMENT: {200 kOhm Range} 16.002 5500 200 200.00kZ 0.45U 2W 17.001 HEAD RESISTANCE MEASUREMENT: {20 kOhm Range} 17.002 DISP Connect the 5500A to the UUT as follows: 17.002 DISP [32] 5500A AUX HI to UUT DMM H 17.002 DISP [32] 5500A AUX LO to UUT DMM L 17.002 DISP [32] 5500A NORMAL HI to UUT DMM H 17.002 DISP [32] 5500A NORMAL LO to UUT DMM L 17.002 DISP Connect the SENSE leads DIRECTLY to the UUT. Connect 17.002 DISP the NORMAL leads to the SENSE leads AT the UUT. 17.003 5500 20 20.000kZ 0.045U CW 18.001 HEAD RESISTANCE MEASUREMENT: {2 kOhm Range} 18.002 5500 2 2.0000kZ 0.0045U CW 19.001 HEAD RESISTANCE MEASUREMENT: {200 Ohm Range} 19.002 5500 200 0.00Z 0.15U CW 20.001 5500 200 200.00Z 0.55U CW 21.001 HEAD {MEASUREMENT TREND/LOGGING MODE} 21.002 DISP Connect the 5500 to the UUT as follows: 21.002 DISP [32] 5500A NORMAL HI to UUT CHANNEL 1 +(A) INPUT 21.002 DISP [32] 5500A NORMAL LO to UUT CHANNEL 1 -(B) INPUT 21.002 DISP 21.002 DISP All leads should be equal length and of 21.002 DISP the same type wire and connectors 21.003 DISP Set the UUT to TREND or LOGGING. 21.004 JMPT 28.003 OMEGA OM503: (1 year) CAL VER /5500 21.005 DISP Set to Range 20mV, Code 00. 21.006 HEAD VOLTAGE TREND/LOGGING: {20mV Range} 21.007 5500 20 20.000mV 0.050U 2W 22.001 5500 20 10.000mV 0.030U 2W 23.001 5500 20 0.000mV 0.010U 2W 24.001 5500 20 -10.000mV 0.030U 2W 25.001 5500 20 -20.000mV 0.050U 2W 26.001 HEAD VOLTAGE TREND/LOGGING: {200mV Range} 26.002 DISP Set to Range 200mV, Code 01. 26.003 5500 200 200.000mV 0.45U 2W 27.001 HEAD VOLTAGE TREND/LOGGING: {20V Range} 27.002 DISP Set to Range 20V, Code 03. 27.003 5500 20 20.0000V 0.065U 2W 28.001 JMP 38.001 28.002 HEAD RTD TREND/LOGGING: {Pt100:1mA Range} 28.003 DISP Set to Range Pt 100 Ohm 1 mA, Code 20. 28.004 MATH MEM1 = M[1] 28.005 JMPF 33.002 28.006 5500 -200.00degC 0.5U R2 2W 29.001 5500 -25.00degC 0.3U R2 2W 30.001 5500 150.00degC 0.4U R2 2W 31.001 5500 325.00degC 0.6U R2 2W 32.001 5500 500.00degC 0.8U R2 2W 33.001 JMP 38.001 33.002 5500 -328.00degF 0.9U R2 2W 34.001 5500 -13.00degF 0.6U R2 2W 35.001 5500 302.00degF 0.9U R2 2W 36.001 5500 617.00degF 1.2U R2 2W 37.001 5500 932.00degF 1.5U R2 2W 38.001 HEAD {RECORDING TEST} 38.002 DISP Note: Chart paper expands or contracts as ambient 38.002 DISP humidity varies. The degree of expansion or contraction 38.002 DISP depends on chart manufacturer and chart material. 38.002 DISP Generally, for ambient humidity variations in the range 38.002 DISP of 60 +/-20%, the range of expansion or contraction of 38.002 DISP the chart is +/-0.3% to +/-0.4%. 38.003 DISP Hence, when extremely accurate measurements are 38.003 DISP required, non-defective or non-conformance is determined 38.003 DISP by measuring the dimensions of the chart recording. 38.003 DISP Avoid using the graduation printed on the chart 38.003 DISP paper; instead use a scale that is accurate over 38.003 DISP the environmental range of temperature and humidity. 38.004 DISP During the following tests, measure with the scale 38.004 DISP and confirm that each point is within 38.004 DISP +/-0.2% of span (150 mm) or with +/-0.3 mm. 38.005 DISP Set the instrument to TREND mode. 38.006 JMPT 43.002 OMEGA OM503: (1 year) CAL VER /5500 38.007 DISP Set to Range 20mV, Code 00. 38.007 DISP 38.007 DISP Start a recording. 38.008 5500 0.000mV S 2W 38.009 PORT [D2000] 38.010 5500 -10.000mV S 2W 38.011 PORT [D2000] 38.012 5500 -20.000mV S 2W 38.013 PORT [D2000] 38.014 5500 20.000mV S 2W 38.015 PORT [D2000] 38.016 5500 10.000mV S 2W 38.017 PORT [D2000] 38.018 5500 * S 38.019 DISP Stop the recording. 38.020 EVAL Is {0mV recording within +/-0.2% of span or +/-3 mm}? 39.001 EVAL Is {-10mV recording within +/-0.2% of span or +/-3 mm}? 40.001 EVAL Is {-20mV recording within +/-0.2% of span or +/-3 mm}? 41.001 EVAL Is {+10mV recording within +/-0.2% of span or +/-3 mm}? 42.001 EVAL Is {+20mV recording within +/-0.2% of span or +/-3 mm}? 43.001 JMP 53.001 43.002 DISP Start a Recording. 43.003 MATH MEM1 = M[1] 43.004 JMPF 48.002 43.005 5500 -200.00degC R2 S 2W 43.006 PORT [D2000] 43.007 5500 -25.00degC R2 S 2W 43.008 PORT [D2000] 43.009 5500 150.00degC R2 S 2W 43.010 PORT [D2000] 43.011 5500 325.00degC R2 S 2W 43.012 PORT [D2000] 43.013 5500 500.00degC R2 S 2W 43.014 PORT [D2000] 43.015 5500 * S 43.016 DISP Stop the Recording. 43.017 EVAL Is {-200.0degC recording within +/-0.2% of span or +/-3 mm}? 44.001 EVAL Is {-25.0degC recording within +/-0.2% of span or +/-3 mm}? 45.001 EVAL Is {150.0degC recording within +/-0.2% of span or +/-3 mm}? 46.001 EVAL Is {325.0degC recording within +/-0.2% of span or +/-3 mm}? 47.001 EVAL Is {500.0degC recording within +/-0.2% of span or +/-3 mm}? 48.001 JMP 53.001 48.002 5500 -328.00degF R2 S 2W 48.003 PORT [D2000] 48.004 5500 -13.00degF R2 S 2W 48.005 PORT [D2000] 48.006 5500 302.00degF R2 S 2W 48.007 PORT [D2000] 48.008 5500 617.00degF R2 S 2W 48.009 PORT [D2000] 48.010 5500 932.00degF R2 S 2W 48.011 PORT [D2000] 48.012 DISP Stop the Recording. 48.013 5500 * S 48.014 EVAL Is {-328.0degF recording within +/-0.2% of span or +/-3 mm}? 49.001 EVAL Is {-13.0degF recording within +/-0.2% of span or +/-3 mm}? 50.001 EVAL Is {302.0degF recording within +/-0.2% of span or +/-3 mm}? 51.001 EVAL Is {617.0degF recording within +/-0.2% of span or +/-3 mm}? 52.001 EVAL Is {932.0degF recording within +/-0.2% of span or +/-3 mm}? 53.001 END