User Contributed MET/CAL PROCEDURE ============================================================================= INSTRUMENT: Anadex CF-603R:Frequency Counter /5700,5335 DATE: 18-Dec-97 AUTHOR: User Contributed REVISION: 0 ADJUSTMENT THRESHOLD: 70% NUMBER OF TESTS: 24 NUMBER OF LINES: 183 CONFIGURATION: Fluke 5700A CONFIGURATION: HP 5335A ============================================================================= STEP FSC RANGE NOMINAL TOLERANCE MOD1 MOD2 3 4 CON 1.001 ASK- R N P U M F W 1.002 ASK+ X 1.003 HEAD INITIAL CONDITIONS 1.004 DISP Set the UUT as follows: 1.004 DISP MODE SWITCH ........................ .1 SECOND 1.004 DISP DISPLAY TIME ....................... mid point 1.004 DISP INPUT MULTIPLIER ................... X1 1.004 DISP FINE ............................... CCW 1.005 HEAD {* Sensitivity *} 1.006 JMP 2.001 1.007 EVAL 2.001 DISP Connect the 5700A to the UUT rear BNC input. 2.002 DISP Connect the 5335A Frequency Counter INPUT A to the UUT 2.002 DISP rear terminal GATE OUTPUT and COMMON terminals. 2.003 MESS Adjust the 5700 for a reading of 10000 on the UUT. 2.004 HEAD {X1 INPUT MULTIPLIER} 2.005 5700 1.000mV 100kH O N 2W 2.006 MATH mem1=0 2.007 MEME 2.008 MEMC mV +20U 100kH 3.001 HEAD {X10 INPUT MULTIPLIER} 3.002 DISP Set the UUT as follows: 3.002 DISP INPUT MULTIPLIER ................... X10 3.003 MESS Adjust the 5700 for a reading of 10000 on the UUT. 3.004 5700 10mV 100kH O N 2W 3.005 MATH mem1=0 3.006 MEME 3.007 MEMC mV +150U 100kH 4.001 HEAD {X100 INPUT MULTIPLIER} 4.002 DISP Set the UUT as follows: 4.002 DISP INPUT MULTIPLIER ................... X100 4.003 MESS Adjust the 5700 for a reading of 10000 on the UUT. 4.004 5700 0.5000V 100kH N 2W 4.005 MATH mem1=0 4.006 MEME 4.007 MEMC V +1.50U 100kH 5.001 MESS 5.002 HEAD {* Frequency Accuracy *} 5.003 DISP Set the UUT as follows: 5.003 DISP INPUT MULTIPLIER ................... X10 5.003 DISP MODE SWITCH ........................ 10 SECONDS 5.004 5700 100kH 0.5V S 2W 5.005 HEAD Please Wait ......... Long gate time 5.006 IEEE [d15000] 5.007 HEAD 5.008 DISP Readings > 100000 Hz - the UUT most significant digit 5.008 DISP "1" will not be displayed. 5.008 DISP 5.008 DISP Enter UUT reading exactly as displayed when prompted 5.008 DISP (e.g. 100000 Hz will be displayed as 00000 Hz). 5.009 JMP 6.001 5.010 EVAL 6.001 MEMI Use keyboard to enter actual UUT reading in Hz: 6.002 MATH MEM1 = MEM - 1000 # Readings > 100,000 6.003 JMPT 7.002 6.004 MATH MEM = MEM + 100000 # Readings < 100,000 6.005 MATH MEM1 = 100000 6.006 MEME 6.007 MEMC H 0.1% 1U 7.001 JMP 8.003 7.002 MATH MEM1 = 100000 7.003 MEME 7.004 MEMC H 0.100% 1U 8.001 MEM/ 10000 8.002 MEME 8.003 HEAD {* Gate Time *} 8.004 HEAD {Does the UUT diplay read approximately 100?} 8.005 JMP 9.001 8.006 EVAL 9.001 HEAD Gate Time 9.002 DISP Set the UUT as follows: 9.002 DISP MODE SWITCH ........................ .1 SECOND 9.002 DISP DISPLAY TIME ....................... mid point 9.003 5700 1V 1kH S 2W 9.004 JMP 10.001 9.005 EVAL 10.001 EVAL Does the UUT diplay read approximately 100? 11.001 DISP Set the UUT as follows: 11.001 DISP DISPLAY TIME ....................... MIN 11.002 IEEE [@5335][TERM LF][SDC] 11.003 IEEE [@5335]FN9,AF1; 11.004 IEEE [@5335][I] 11.005 MATH MEM1=.1 11.006 MEME 11.007 MEMC T 75.000% 12.001 HEAD {} 12.002 HEAD {Does the UUT diplay read approximately 600?} 12.003 JMP 13.001 12.004 EVAL 13.001 HEAD Gate Time 13.002 DISP Set the UUT as follows: 13.002 DISP MODE SWITCH ........................ .6 SECOND 13.002 DISP DISPLAY TIME ....................... mid point 13.003 5700 1V 1kH S 2W 13.004 EVAL Does the UUT diplay read approximately 600? 14.001 HEAD 14.002 DISP Set the UUT as follows: 14.002 DISP DISPLAY TIME ....................... MIN 14.003 IEEE [@5335][D3000][I] 14.004 MATH MEM1=.6 14.005 MEME 14.006 MEMC T 25.000% 15.001 HEAD {} 15.002 HEAD {Does the UUT diplay read approximately 1000?} 15.003 JMP 16.001 15.004 EVAL 16.001 HEAD Gate Time 16.002 DISP Set the UUT as follows: 16.002 DISP MODE SWITCH ........................ 1 SECOND 16.002 DISP DISPLAY TIME ....................... mid point 16.003 5700 1V 1kH S 2W 16.004 HEAD Please Wait ......... Long gate time 16.005 IEEE [D3000] 16.006 HEAD Gate Time 16.007 EVAL Does the UUT diplay read approximately 1000? 17.001 DISP Set the UUT as follows: 17.001 DISP DISPLAY TIME ....................... MIN 17.002 HEAD Please Wait ......... Long gate time 17.003 IEEE [D3000] 17.004 IEEE [@5335][T0][I] 17.005 HEAD Gate Time 17.006 MATH MEM1=1 17.007 MEME 17.008 MEMC T 25.000% 18.001 HEAD {} 18.002 HEAD {Does the UUT diplay read approximately 6000?} 18.003 JMP 19.001 18.004 EVAL 19.001 HEAD Gate Time 19.002 DISP Set the UUT as follows: 19.002 DISP MODE SWITCH ........................ 6 SECOND 19.002 DISP DISPLAY TIME ....................... mid point 19.003 5700 1V 1kH S 2W 19.004 HEAD Please Wait ......... Long gate time 19.005 IEEE [D12000] 19.006 HEAD Gate Time 19.007 EVAL Does the UUT diplay read approximately 6000? 20.001 DISP Set the UUT as follows: 20.001 DISP DISPLAY TIME ....................... MIN 20.002 HEAD Please Wait ......... Long gate time 20.003 IEEE [D2000] 20.004 IEEE [@5335][T0][I] 20.005 HEAD Gate Time 20.006 MATH MEM1=6 20.007 MEME 20.008 MEMC T 25.000% 21.001 HEAD {} 21.002 HEAD {Does the UUT diplay read approximately 10000?} 21.003 JMP 22.001 21.004 EVAL 22.001 HEAD Gate Time 22.002 DISP Set the UUT as follows: 22.002 DISP MODE SWITCH ........................ 10 SECOND 22.002 DISP DISPLAY TIME ....................... mid point 22.003 5700 1V 1kH S 2W 22.004 HEAD Please Wait ......... Long gate time 22.005 IEEE [D20000] 22.006 HEAD Gate Time 22.007 EVAL Does the UUT diplay read approximately 10000? 23.001 DISP Set the UUT as follows: 23.001 DISP DISPLAY TIME ....................... MIN 23.002 HEAD Please Wait ......... Long gate time 23.003 IEEE [@5335][T0][I] 23.004 HEAD Gate Time 23.005 MATH MEM1=10 23.006 MEME 23.007 MEMC T 25.000% 24.001 END