Fluke MET/CAL Procedure ============================================================================= INSTRUMENT: Goerz SE110: (1 year) CAL VER /5500 DATE: 04-Sep-97 AUTHOR: Fluke Corporation REVISION: $Revision: 1.4 $ ADJUSTMENT THRESHOLD: 70% NUMBER OF TESTS: 22 NUMBER OF LINES: 163 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 ASK- P F V 1.002 ASK+ K X 1.003 HEAD PRELIMINARY INSTRUCTIONS 1.004 DISP Connect UUT to AC power and turn unit ON. 1.004 DISP 1.004 DISP Warm-up time: 30min - REQUIRED 1.004 DISP Temperature: 23 +/-2 degC 1.004 DISP Humidity: 55 +/-10% 1.005 DISP [32] WARNING 1.005 DISP HIGH VOLTAGE is used or exposed during the performance 1.005 DISP of this calibration. 1.006 DISP This procedure will also test the TIME UNIT for the 1.006 DISP GOERZ Instruments model SE110. 1.007 DISP Set the PEN switch to OFF. 1.007 DISP Set the MULTIPLIER to V. 1.007 DISP Set the REC switch to REC. 1.007 DISP Set the TIME UNIT to 6cm/min. 1.008 RNG 1V 1.009 DISP Connect the 5500A to the UUT as follows: 1.009 DISP [32] 5500A NORMAL HI to UUT INPUT HI 1.009 DISP [32] 5500A NORMAL LO to UUT INPUT LO 1.010 HEAD {ZERO ADJUSTABILITY} 1.011 5500 0V S 2W 1.012 DISP Set the PEN switch to I PEN. 1.013 MESS Turn the ZERO control fully clockwise, then fully 1.013 MESS counterclockwise. Verify that the trace shifts over the 1.013 MESS entire recording range. 1.013 MESS 1.014 EVAL Does {the ZERO control move trace over the entire range}? 2.001 5500 0V S 2W 2.002 MESS Turn the ZERO control fully clockwise and counter- 2.002 MESS clockwise. Verify that the physical stop points are 2.002 MESS past the edges of the chart grid by approximately 1mm. 2.002 MESS 2.003 EVAL Are {the stop points past ends of chart by .5 - 2mm}? 3.001 MESS 3.002 HEAD {RESPONSE TIME} 3.003 DISP Set the ZERO knob to 0 (left chart edge). 3.003 DISP Set the TIME UNIT to 60cm/min. 3.004 5500 0V S 2W 3.005 DISP Readjust the ZERO control so trace is on 0% line. 3.006 5500 0.900V S 2W 3.007 PORT [D3999] 3.008 DISP Set the PEN switch to OFF. 3.009 MESS The time between the start (0%) and the end (90%) of the 3.009 MESS movement should be approximately .5 seconds (5mm). 3.009 MESS 3.009 MESS The trace should NOT overshoot the 90% point by 3.009 MESS more than 2.5mm. 3.009 MESS 3.010 EVAL Are {the response time & overshoot characteristics correct}? 4.001 HEAD {DISPLAY VOLTAGE} 4.002 DISP This tests the accuracy of the digital LCD display unit. 4.002 DISP 4.002 DISP The chart recording will be tested following this test. 4.003 DISP Set the MULTIPLIER to mV. 4.004 HEAD DISPLAY VOLTAGE: {1mV Range} 4.005 5500 1 1.000mV 0.5% 2W 5.001 HEAD DISPLAY VOLTAGE: {2mV Range} 5.002 5500 2 2.000mV 0.5% 2W 6.001 HEAD DISPLAY VOLTAGE: {5mV Range} 6.002 5500 5 5.000mV 0.5% 2W 7.001 HEAD DISPLAY VOLTAGE: {10mV Range} 7.002 5500 10 10.00mV 0.5% 2W 8.001 HEAD DISPLAY VOLTAGE: {20mV Range} 8.002 5500 20 20.00mV 0.5% 2W 9.001 HEAD DISPLAY VOLTAGE: {50mV Range} 9.002 5500 50 50.00mV 0.5% 2W 10.001 HEAD DISPLAY VOLTAGE: {100mV Range} 10.002 5500 100 100.0mV 0.5% 2W 11.001 HEAD DISPLAY VOLTAGE: {200mV Range} 11.002 5500 200 200.0mV 0.5% 2W 12.001 HEAD DISPLAY VOLTAGE: {500mV Range} 12.002 5500 500 500.0mV 0.5% 2W 13.001 DISP Set the MULTIPLIER to V. 13.002 HEAD DISPLAY VOLTAGE: {1V Range} 13.003 5500 1 1.000V 0.5% 2W 14.001 HEAD DISPLAY VOLTAGE: {2V Range} 14.002 5500 2 2.000V 0.5% 2W 15.001 HEAD DISPLAY VOLTAGE: {5V Range} 15.002 5500 5 5.000V 0.5% 2W 16.001 HEAD DISPLAY VOLTAGE: {10V Range} 16.002 5500 10 10.00V 0.5% 2W 17.001 HEAD DISPLAY VOLTAGE: {20V Range} 17.002 5500 20 20.00V 0.5% 2W 18.001 HEAD DISPLAY VOLTAGE: {50V Range} 18.002 5500 50 50.00V 0.5% 2W 19.001 HEAD {PEN RECORDING} 19.002 DISP Set the PEN switch to I PEN. 19.002 DISP Set the MULTIPLIER to V. 19.002 DISP Set the REC switch to REC. 19.002 DISP Set the TIME UNIT to 30cm/min. 19.003 RNG 1V 19.004 5500 0V S 2W 19.005 DISP Adjust the ZERO control to center the trace (50%). 19.006 5500 -0.5V S 2W 19.007 PORT [D1999] 19.008 5500 0V S 2W 19.009 PORT [D3999] 19.010 5500 0.5V S 2W 19.011 PORT [D1999] 19.012 5500 0V S 2W 19.013 DISP Set the PEN switch to OFF. 19.014 MESS Check the preceeding trace returns to the center 19.014 MESS after going to full scale in both directions. 19.014 MESS 19.014 MESS The deadband is the offset from center when returned 19.014 MESS to center. 19.014 MESS 19.015 EVAL Is {the DEADBAND (at chart center) <.3mm}? 20.001 HEAD {LINEARITY} 20.002 DISP Set the PEN switch to I PEN. 20.002 DISP Set the TIME UNIT to 60cm/min. 20.003 RNG 1V 20.004 5500 0.9Vpp 0.1H TI S 2W 20.005 DISP Wait for several cycles of the triangle waveform to be 20.005 DISP recorded, then press the PEN switch to OFF. 20.006 5500 * S 20.007 MESS Check the recorded waveform is straight 20.007 MESS lines and has no irregularities. 20.007 MESS 20.008 EVAL Is {the recording LINEAR +/-.1cm}? 21.001 HEAD {FEEDRATE} 21.002 DISP Set the PEN to I PEN. 21.002 DISP Set the TIME UNIT to 60cm/min. 21.003 5500 0.9Vpp 0.01H SQ S 2W 21.004 DISP Let the chart run for ONE COMPLETE CYCLE of the 21.004 DISP squarewave, then press the REC/OFF button to OFF. 21.004 DISP (this will take approx. 100 seconds) 21.005 MESS Measure the number of centimeters it took the 21.005 MESS recording to complete ONE cycle. 21.005 MESS 21.006 EVAL Is {the CHART FEED 100cm +/-.01cm}? 22.001 END