Fluke MET/CAL Procedure ============================================================================= INSTRUMENT: Sub Graphtec AL3301/AL3302 (1 year) CAL VER /5500 DATE: 03-Sep-97 AUTHOR: Fluke Corporation REVISION: $Revision: 1.6 $ ADJUSTMENT THRESHOLD: 70% NUMBER OF TESTS: 25 NUMBER OF LINES: 241 CONFIGURATION: Fluke 5500A ============================================================================= # # Source: # GRAPHTEC LINEARCORDER WR3310 MARK VII technical brochure. # # Compatibility: # 5500/CAL 4.23 or MET/CAL 4.23 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+ X 1.004 HEAD PRELIMINARY INSTRUCTIONS 1.007 DISP This procedure tests one AL3301 or AL3302 installed in 1.007 DISP any channel (AL3302 is double wide-80mm). 1.008 MEM2 Do you have an AL3301 or an AL3302? 1.009 JMPL AL3301 ZCMPI(MEM2, "AL3301") 1.010 JMPL AL3302 ZCMPI(MEM2, "AL3302") 1.011 DISP You must enter "AL3301" or "AL3302". 1.012 JMP 1.007 1.013 LABEL AL3301 1.014 MATH M[3] = 1 1.015 JMP 1.018 1.016 LABEL AL3302 1.017 MATH M[3] = 2 1.018 DISP Connect the 5500A to the [MEM2] as follows: 1.018 DISP [32] 5500A NORMAL HI to HI INPUT 1.018 DISP [32] 5500A NORMAL LO to LO INPUT 1.019 SET MAINFRAMEi : SETTINGS 1.019 SET POWER : ON 1.019 SET CHART EXT : OUT 1.019 SET HEAT : ON 1.019 SET CHART SPEED : 100 1.019 SET SEC / MIN : MIN 1.020 SET PLUG-IN : SETTINGS 1.020 SET MEAS/OFF/CAL.V : OFF 1.020 SET mV/x100mV : mV 1.020 SET RANGE : 1000 1.020 SET GAIN : FULL CW 1.020 SET POSITION : CENTER SCALE 1.021 DISP Set the proper channel HEAT switch to ON. 1.021 DISP If necessary, adjust the HEAT CONT. for best trace. 1.022 HEAD {BALANCE} 1.023 MATH MEM = .4 * M[3] 1.024 MESS While turning the RANGE control from maximum sensitivity 1.024 MESS to minimum sensitivity NOTE the pen shift from the 1.024 MESS center position. 1.024 MESS 1.025 EVAL Is the range balance pen movement <[MEM]mm? 2.001 RSLT =range balance pen movement <[MEM]mm 2.002 SET MEAS/OFF/CAL.V : MEAS 2.003 MESS Measure the pen movement while switching the 2.003 MESS MEAS/OFF/CAL.V between MEAS & OFF. 2.003 MESS 2.004 EVAL Is the measure balance pen movement <[MEM]mm? 3.001 RSLT =measure balance pen movement <[MEM]mm 3.002 HEAD {GAIN} 3.003 SET MEAS/OFF/CAL.V : MEAS 3.003 SET mV/x100mV : mV 3.004 MATH MEM = 500 / M[3] 3.005 DISP Set the RANGE : [MEM] 3.006 5500 1V S 2W 3.007 MATH MEM = 20 * M[3] 3.008 DISP Adjust the front panel GAIN control for a pen deflection 3.008 DISP of EXACTLY [MEM]mm. 3.009 5500 * S 3.010 HEAD GAIN: {1000mV RANGE} 3.011 DISP Set the RANGE : 1000 3.011 DISP 3.011 DISP Using the POSITION control, exactly center the trace. 3.012 MATH MEM = 2000 * M[3] 3.013 MATH MEM1 = 20 * M[3] 3.014 MESS SLEW the 5500 output for EXACTLY [MEM1]mm of deflection. 3.015 5500 mV 1% 2W 4.001 HEAD GAIN: {500mV RANGE} 4.002 DISP Set the RANGE : 500 4.002 DISP 4.002 DISP Using the POSITION control, exactly center the trace. 4.003 MATH MEM = 1000 * M[3] 4.004 5500 mV 1% 2W 5.001 HEAD GAIN: {200mV RANGE} 5.002 DISP Set the RANGE : 200 5.002 DISP 5.002 DISP Using the POSITION control, exactly center the trace. 5.003 MATH MEM = 400 * M[3] 5.004 5500 mV 1% 2W 6.001 HEAD GAIN: {100mV RANGE} 6.002 DISP Set the RANGE : 100 6.002 DISP 6.002 DISP Using the POSITION control, exactly center the trace. 6.003 MATH MEM = 200 * M[3] 6.004 5500 mV 1% 2W 7.001 HEAD GAIN: {50mV RANGE} 7.002 DISP Set the RANGE : 50 7.002 DISP 7.002 DISP Using the POSITION control, exactly center the trace. 7.003 MATH MEM = 100 * M[3] 7.004 5500 mV 1% 2W 8.001 HEAD GAIN: {20mV RANGE} 8.002 DISP Set the RANGE : 20 8.002 DISP 8.002 DISP Using the POSITION control, exactly center the trace. 8.003 MATH MEM = 40 * M[3] 8.004 5500 mV 1% 2W 9.001 HEAD GAIN: {10mV RANGE} 9.002 DISP Set the RANGE : 10 9.002 DISP 9.002 DISP Using the POSITION control, exactly center the trace. 9.003 MATH MEM = 20 * M[3] 9.004 5500 mV 1% 2W 10.001 HEAD GAIN: {5mV RANGE} 10.002 DISP Set the RANGE : 5 10.002 DISP 10.002 DISP Using the POSITION control, exactly center the trace. 10.003 MATH MEM = 10 * M[3] 10.004 5500 mV 1% 2W 11.001 HEAD GAIN: {5 x100mV RANGE} 11.002 DISP Set the RANGE : 5 11.002 DISP Set the mV/x100mV : [27][91]1mx100mV 11.002 DISP 11.002 DISP Using the POSITION control, exactly center the trace. 11.003 MATH MEM = 1 * M[3] 11.004 5500 V 1% 2W 12.001 HEAD GAIN: {10 x100mV RANGE} 12.002 DISP Set the RANGE : 10 12.002 DISP 12.002 DISP Using the POSITION control, exactly center the trace. 12.003 MATH MEM = 2 * M[3] 12.004 5500 V 1% 2W 13.001 HEAD GAIN: {20 x100mV RANGE} 13.002 DISP Set the RANGE : 20 13.002 DISP 13.002 DISP Using the POSITION control, exactly center the trace. 13.003 MATH MEM = 4 * M[3] 13.004 5500 V 1% 2W 14.001 HEAD GAIN: {50 x100mV RANGE} 14.002 DISP Set the RANGE : 50 14.002 DISP Set the mV/x100mV : [27][91]1mx100mV 14.002 DISP 14.002 DISP Using the POSITION control, exactly center the trace. 14.003 MATH MEM = 10 * M[3] 14.004 5500 V 1% 2W 15.001 HEAD GAIN: {100 x100mV RANGE} 15.002 DISP Set the RANGE : 100 15.002 DISP 15.002 DISP Using the POSITION control, exactly center the trace. 15.003 MATH MEM = 20 * M[3] 15.004 5500 V 1% 2W 16.001 HEAD GAIN: {200 x100mV RANGE} 16.002 DISP Set the RANGE : 200 16.002 DISP 16.002 DISP Using the POSITION control, exactly center the trace. 16.003 MATH MEM = 40 * M[3] 16.004 5500 V 1% 2W 17.001 HEAD GAIN: {500 x100mV RANGE} 17.002 DISP Set the RANGE : 500 17.002 DISP Set the mV/x100mV : [27][91]1mx100mV 17.002 DISP 17.002 DISP Using the POSITION control, exactly center the trace. 17.003 MATH MEM = 100 * M[3] 17.004 5500 V 1% 2W 18.001 HEAD GAIN: {1000 x100mV RANGE} 18.002 DISP Set the RANGE : 1000 18.002 DISP 18.002 DISP Using the POSITION control, exactly center the trace. 18.003 MATH MEM = 200 * M[3] 18.004 5500 V 1% 2W 19.001 MESS 19.002 HEAD {FREQUENCY RESPONSE} 19.003 SET RANGE : 100 19.003 SET mV / x100mV : mV 19.004 MATH MEM1 = M[3] -1.5 19.005 JMPT 22.002 19.006 MESS SLEW the 5500 for exactly 40mm p-p deflection. 19.006 MESS 19.007 5500 400mVpp 1H SI N 2W 19.008 5500 mVpp 60H SI S 2W 19.009 EVAL Is the {p-p deflection 40mm +/-.5mm(@60H)}? 20.001 MESS SLEW the 5500 for exactly 20mm p-p deflection. 20.001 MESS 20.002 5500 200mVpp 1H SI N 2W 20.003 5500 mVpp 100H SI S 2W 20.004 EVAL Is the {p-p deflection 20mm +/-.5mm(@100H)}? 21.001 MESS SLEW the 5500 for exactly 10mm p-p deflection. 21.001 MESS 21.002 5500 100mVpp 1H SI N 2W 21.003 5500 mVpp 140H SI S 2W 21.004 EVAL Is the {p-p deflection 10mm +/-.5mm(@140H)}? 22.001 JMP 25.001 22.002 MESS SLEW the 5500 for exactly 80mm p-p deflection. 22.002 MESS 22.003 5500 800mVpp 1H SI N 2W 22.004 5500 mVpp 30H SI S 2W 22.005 EVAL Is the {p-p deflection 80mm +/-1mm(@30H)}? 23.001 MESS SLEW the 5500 for exactly 40mm p-p deflection. 23.001 MESS 23.002 5500 400mVpp 1H SI N 2W 23.003 5500 mVpp 45H SI S 2W 23.004 EVAL Is the {p-p deflection 40mm +/-.5mm(@45H)}? 24.001 MESS SLEW the 5500 for exactly 20mm p-p deflection. 24.001 MESS 24.002 5500 200mVpp 1H SI N 2W 24.003 5500 mVpp 60H SI S 2W 24.004 EVAL Is the {p-p deflection 20mm +/-.5mm(@60H)}? 25.001 END