User Contributed MET/CAL PROCEDURE ============================================================================= INSTRUMENT: 355A Channel Sub DATE: 20-Nov-97 AUTHOR: User Contributed REVISION: ADJUSTMENT THRESHOLD: 70% NUMBER OF TESTS: 22 NUMBER OF LINES: 135 CONFIGURATION: Fluke 5700A CONFIGURATION: Datron 1281 ============================================================================= STEP FSC RANGE NOMINAL TOLERANCE MOD1 MOD2 3 4 CON 1.001 HEAD { DC Tests } 1.002 HEAD {1V Full Scale} 1.003 HEAD {Signal Output} 1.004 HEAD Channel [mem2] 1.005 JMP 2.001 1.006 EVAL 2.001 DISP Set the UUT as follows: 2.001 DISP INPUT .............................. DC 2.001 DISP AVERAGING .......................... MED 2.001 DISP FULL SCALE ......................... 1V 2.002 DISP Connect the UUT as follows: 2.002 DISP SIGNAL INPUT ....................... 5700 V ohm A OUTPUT 2.002 DISP SIGNAL OUTPUT (rear panel) ......... 1281 INPUT 2.003 IEEE [@1281]*RST 2.004 IEEE [@1281]DCV AUTO 2.005 5700 1V S 2W 2.006 ACC 10.000 0.1% 2.007 IEEE [@1281]RDG? [I] 2.008 MEME 2.009 MEMC V 0.200U 3.001 HEAD {LIN Output} 3.002 HEAD Channel [mem2] 3.003 JMP 4.001 3.004 EVAL 4.001 DISP Connect the UUT as follows: 4.001 DISP LIN OUTPUT (rear pannel) ........... 1281 INPUT 4.002 5700 1V S 2W 4.003 ACC 10.000 0.1% 4.004 IEEE [@1281]RDG? [I] 4.005 MEME 4.006 MEMC V 0.200U 5.001 5700 1.000V S 2W 5.002 MEMI Enter the reading on the UUT LINEAR meter_. 5.003 MATH mem1=1 5.004 MEME 5.005 MEMC V 0.020U meter_ 6.001 HEAD {10V Full Scale} 6.002 JMP 7.001 6.003 EVAL 7.001 DISP Set the UUT as follows: 7.001 DISP FULL SCALE ......................... 10V 7.002 5700 1.000V S 2W 7.003 IEEE [@1281]RDG? [I] 7.004 MATH MEM1=1 7.005 MEME 7.006 MEMC V 0.020U 8.001 5700 1.00V S 2W 8.002 MEMI Enter the UUT LINEAR meter_ reading. 8.003 MATH mem1=1 8.004 MEME 8.005 MEMC V 0.03U meter_ 9.001 HEAD { AC Tests } 9.002 HEAD {100mV Full Scale} 9.003 HEAD {LIN Output} 9.004 HEAD Channel [mem2] 9.005 JMP 10.001 9.006 EVAL 10.001 DISP Set the UUT as follows: 10.001 DISP INPUT .............................. AC 10.001 DISP FULL SCALE ......................... 100mV 10.002 5700 10mV 1kH O S 2W 10.003 ACC 1.000 0.1% 10.004 IEEE [@1281]RDG? [I] 10.005 MEME 10.006 MEMC V 0.020U 11.001 HEAD {10mV Full Scale} 11.002 JMP 12.001 11.003 EVAL 12.001 DISP Set the UUT as follows: 12.001 DISP FULL SCALE ......................... 10mV 12.002 5700 10mV 1kH O S 2W 12.003 IEEE [@1281]RDG? [I] 12.004 ACC 10.000 0.1% 12.005 MATH MEM1=10 12.006 MEME 12.007 MEMC V 0.200U 13.001 5700 10.00mV 1kH O S 2W 13.002 MEMI Enter the UUT LINEAR meter_ reading. 13.003 MATH mem1=10 13.004 MEME 13.005 MEMC mV 0.20U meter_ 14.001 HEAD {LOG Output} 14.002 HEAD {1V Full Scale} 14.003 JMP 15.001 14.004 EVAL 15.001 DISP Set the UUT as follows: 15.001 DISP FULL SCALE ......................... 1V 15.002 DISP Connect the UUT as follows: 15.002 DISP LOG OUTPUT (rear pannel) ........... 1281 INPUT 15.003 5700 10mV 1kH O S 2W 15.004 ACC 500.000mV 0.1% 15.005 IEEE [@1281]RDG? [I] 15.006 MATH MEM1=500 15.007 MEM* 1000 15.008 MEME 15.009 MEMC mV 8.000U 16.001 5700 10mV 1kH O S 2W 16.002 HEAD {Does the LOG meter_ indicate approximately -40dB?} 16.003 HEAD 16.004 EVAL Does the LOG meter_ indicate approximately -40dB? 17.001 JMP 18.001 17.002 EVAL 18.001 5700 1.000V 1kH S 2W 18.002 IEEE [@1281]RDG? [I] 18.003 MATH MEM1=1 18.004 MEME 18.005 MEMC V 0.0080U 19.001 5700 1.000V 1kH S 2W 19.002 MEMI Enter the UUT LINEAR meter_ reading. 19.003 MATH mem1=1 19.004 MEME 19.005 MEMC V 0.020U meter_ 20.001 5700 1V 1kH S 2W 20.002 HEAD {Does the LOG meter_ indicate approximately 0dB?} 20.003 HEAD 20.004 EVAL Does the LOG meter_ indicate approximately 0dB? 21.001 5700 1V 1kH S 2W 21.002 DISP Hold down the -20dB switch. 21.003 HEAD {Does the LOG meter_ indicate approximately -20dB?} 21.004 HEAD 21.005 EVAL Does the LOG meter_ indicate approximately -20dB? 22.001 END