User Contributed MET/CAL PROCEDURE ============================================================================= INSTRUMENT: Philips PM3320A DATE: 14-Dec-92 AUTHOR: User Contributed REVISION: 1.0 ADJUSTMENT THRESHOLD: 90% NUMBER OF TESTS: 40 NUMBER OF LINES: 182 CONFIGURATION: Tektronix CG5001 CONFIGURATION: Fluke 6060B ============================================================================= STEP FSC RANGE NOMINAL TOLERANCE MOD1 MOD2 3 4 CON 1.001 ASK+ D N 1.002 ASK- R P J F W 1.003 HEAD GENERAL REQUIREMENT 1.004 DISP All UUTs require a minimum warm-up period of 30 minutes. 1.004 DISP Please connect the IEEE cable to UUT from ATE. 1.005 HEAD {CRT CONTROLS FUNCTIONAL TEST} 1.006 DISP Verify the Intensity, Trace Rotation, Focus and 1.006 DISP Illumination controls are functioning. 1.007 EVAL Is the CRT control working properly ? 2.001 RSLT = 2.002 IEEE [SPL]SET AUT[10][D8000]VER A,IMP LOW,VER B,IMP HIGH[10] 2.003 HEAD {AUTO SET TEST - CHANNEL A and B} 2.004 DISP Connect the CG 5001 Output to UUT channel A and B. 2.005 5001 0.5VP 1kH -D S L 2.006 IEEE [SPL]SET AUT[10] 2.007 EVAL Does the UUT display Att = 0.2V/Div. and MTB = 0.2ms/Div. ? 3.001 RSLT = 3.002 HEAD {ADD MODE TEST} 3.003 IEEE FRO 0,VER A,FCN ON,IMP LOW,CPL DC,ATT 5E-03[10] 3.004 IEEE VER B,FCN ON,IMP HIGH,CPL DC,ATT 5E-03[10] 3.005 IEEE VER ADD,FCN ON[10][GTL] 3.006 5001 5 10mVP 4% 1kH -D L 4.001 RSLT = 4.002 HEAD {VERTICAL DEFLECTION TEST - CHANNEL A} 4.003 DISP Diconnect the cable from channel B. 4.004 IEEE VER ADD,FCN OFF,VER B,FCN OFF[10] 4.005 IEEE VER A,ATT 10E-03[10][GTL] 4.006 5001 10 40mVP 2.5% 1kH -D L 5.001 IEEE VER A,ATT 20E-03[10][GTL] 5.002 5001 20 80mVP 2.5% 1kH -D L 6.001 IEEE VER A,ATT 50E-03[10][GTL] 6.002 5001 50 200mVP 2.5% 1kH -D L 7.001 IEEE VER A,ATT .1E+00[10][GTL] 7.002 5001 0.1 400mVP 2.5% 1kH -D L 8.001 IEEE VER A,ATT .2E+00[10][GTL] 8.002 5001 0.2 800mVP 2.5% 1kH -D L 9.001 IEEE VER A,ATT .5E+00,IMP HIGH[10][GTL] 9.002 5001 0.5 2VP 2.5% 1kH -D 10.001 IEEE VER A,ATT 1E+00[10][GTL] 10.002 5001 1 4VP 2.5% 1kH -D 11.001 IEEE VER A,ATT 2E+00[10][GTL] 11.002 5001 2 8VP 2.5% 1kH -D 12.001 IEEE VER A,ATT 5E+00[10][GTL] 12.002 5001 5 20VP 5.0% 1kH -D 13.001 RSLT = 13.002 HEAD {VOLTAGE CURSOR ACCURACY TEST} 13.003 IEEE VER A,IMP HIGH,ATT .2E+00,CPL DC,HOR MTB,TIM .2E-03[10] 13.004 IEEE MSC AUX,SPL CURSOR,CUR ON[10][GTL] 13.005 5001 1VP 1kH -D S 13.006 DISP Position the 1st CURSOR in the horizontal mid of 13.006 DISP the top of the waveform. Position the 2nd CURSOR 13.006 DISP in the horizontal mid of the bottom of the waveform. 13.006 DISP Then read the DELTA VOLT from UUT's CRT upper 13.006 DISP right corner. 13.007 EVAL Does dY read 1V +/- 30mV ? 14.001 RSLT = 14.002 IEEE MSC AUX,SPL CURSOR,CUR OFF[10] 14.003 HEAD {VERTICAL DEFLECTION TEST - CHANNEL B} 14.004 DISP Move the CG 5001 Output to channel B from A. 14.005 IEEE VER A,FCN OFF,VER B,FCN ON[10] 14.006 IEEE VER B,IMP LOW,CPL DC,ATT 10E-03,HOR MTB,TSO B[10][GTL] 14.007 5001 10 40mVP 2.5% 1kH -D L 15.001 IEEE VER B,ATT 20E-03[10][GTL] 15.002 5001 20 80mVP 2.5% 1kH -D L 16.001 IEEE VER B,ATT 50E-03[10][GTL] 16.002 5001 50 200mVP 2.5% 1kH -D L 17.001 IEEE VER B,ATT .1E+00[10][GTL] 17.002 5001 0.1 400mVP 2.5% 1kH -D L 18.001 IEEE VER B,ATT .2E+00[10][GTL] 18.002 5001 0.2 800mVP 2.5% 1kH -D L 19.001 IEEE VER B,IMP HIGH,ATT .5E+00[10][GTL] 19.002 5001 0.5 2VP 2.5% 1kH -D 20.001 IEEE VER B,ATT 1E+00[10][GTL] 20.002 5001 1 4VP 2.5% 1kH -D 21.001 IEEE VER B,ATT 2E+00[10][GTL] 21.002 5001 2 8VP 2.5% 1kH -D 22.001 IEEE VER B,ATT 5E+00[10][GTL] 22.002 5001 5 20VP 5.0% 1kH -D 23.001 RSLT = 23.002 HEAD {RISE TIME TEST - CHANNEL B} 23.003 IEEE VER B,IMP LOW,CPL DC,ATT 20E-03,HOR MTB,TIM 5E-09[10] 23.004 IEEE HOR MTB,TSO B[10][GTL] 23.005 5001 100mVP 1MH -D E S L 23.006 MESS Use VERTICAL and HORIZONTAL position controls to locate 23.006 MESS the input waveform and place the bottom and top of the 23.006 MESS waveform on 0% and 100% lines respectively. Measure 23.006 MESS the RISE TIME from 10% and 90% lines. 23.006 MESS The Pulse abberations must be 50 mVp-p or less. 23.007 EVAL Is the RISE TIME less than 1.5 Sub. divisions ? 24.001 RSLT = 24.002 HEAD {RISE TIME TEST - CHANNEL A} 24.003 DISP Move CG 5001 Output to channel A from B. 24.004 IEEE VER B,FCN OFF,VER A,FCN ON[10] 24.005 IEEE VER A,IMP LOW,CPL DC,ATT 20E-03,HOR MTB,TIM 5E-09[10] 24.006 IEEE HOR MTB,TSO A[10][GTL] 24.007 5001 100mVP 1MH -D E S L 24.008 EVAL Is the RISE TIME less than 1.5 Sub. divisions ? 25.001 RSLT = 25.002 MESS 25.003 HEAD {HORIZONTAL DEFLECTION TEST} 25.004 DISP Connect CG 5001 TRIG Output to UUT EXT input. 25.005 IEEE VER A,FCN ON,VER B,FCN OFF,VER A,ATT 1E+00[10] 25.006 IEEE HOR MTB,TIM 10E-09,TSO EXT,CPL AUT[10][GTL] 25.007 5001 10 10nT 4% -D 26.001 IEEE HOR MTB,TIM 50E-09[10][GTL] 26.002 5001 50 50nT 4% -D 27.001 IEEE HOR MTB,TIM .1E-06[10][GTL] 27.002 5001 0.1 0.1uT 1% -D 28.001 IEEE HOR MTB,TIM 2E-06[10][GTL] 28.002 5001 2 2uT 1% -D 29.001 IEEE HOR MTB,TIM 5E-06[10][GTL] 29.002 5001 5 5uT 1% -D 30.001 IEEE HOR MTB,TIM .2E-03[10][GTL] 30.002 5001 0.2 0.2mT 1% -D 31.001 IEEE HOR MTB,TIM 2E-03[10][GTL] 31.002 5001 2 2mT 1% -D 32.001 IEEE HOR MTB,TIM 1E-03[10][GTL] 32.002 5001 1 1mT 1% -D 33.001 IEEE HOR MTB,TIM 50E-03[10][GTL] 33.002 5001 50 50mT 1% -D 34.001 RSLT = 34.002 HEAD {TIME CURSOR ACCURACY TEST} 34.003 IEEE HOR MTB,TIM 1E-03[10] 34.004 IEEE MSC AUX,SPL CURSOR,CUR ON[10][GTL] 34.005 5001 1mT -D S 34.006 DISP Position the 1st CURSOR and the 2nd CURSOR so that 34.006 DISP they cover the second and the tenth markers. Then 34.006 DISP read the DELTA TIME from UUT's CRT upper top center. 34.007 EVAL Does dX read 8ms =/- .01ms ? 35.001 RSLT = 35.002 IEEE MSC AUX,SPL CURSOR,CUR OFF[10] 35.003 DISP Please disconnect all cables from UUT. 35.004 HEAD {BANDWIDTH TEST - CHANNEL A} 35.005 DISP Connect 6062A Output to UUT channel A. 35.006 IEEE [SPL]SET AUT[10][D8000] 35.007 IEEE VER A,IMP LOW,ATT 50E-03,HOR MTB,TIM 5E-06[10][GTL] 35.008 6060 100kH 100mV -D S 35.009 EVAL Is the amplitude approximate 6 divisions ? 36.001 RSLT = 36.002 IEEE HOR MTB,TIM 5E-09[10][GTL] 36.003 6060 200MH 100mV -D S 36.004 EVAL Is the amplitude greater than 4.2 divisions ? 37.001 RSLT = 37.002 HEAD {} 37.003 HEAD {} 37.004 HEAD {BANDWIDTH TEST - CHANNEL B} 37.005 DISP Move the cable to channel B from A. 37.006 IEEE VER A,FCN OFF,VER B,FCN ON,VER B,IMP LOW,ATT 50E-03[10] 37.007 IEEE HOR MTB,TIM 5E-06,TSO B[10][GTL] 37.008 6060 100kH 100mV -D S 37.009 EVAL Is the amplitude approximate 6 divisions ? 38.001 RSLT = 38.002 IEEE HOR MTB,TIM 5E-09[10][GTL] 38.003 6060 200MH 100mV -D S 38.004 EVAL Is the amplitude greater than 4.2 divisions ? 39.001 RSLT = 39.002 DISP Please disconnect all cables from UUT. 39.003 HEAD {CALIBRATION OUTPUT TEST} 39.004 DISP Set the System Scope channel A att = 0.2V/Div.DC coupled 39.004 DISP Set MTB = 0.1ms/Div. and MTB Trigger = A. 39.004 DISP Connect the UUT's Cal. Output to the System Scope. 39.004 DISP Verify the amplitude is 1V +/- 30mV. 39.005 EVAL Does System Scope read 1 Volt +/- 30mV ? 40.001 RSLT = 40.002 IEEE VER A,IMP HIGH,VER B,IMP HIGH[10] 40.003 IEEE SET AUT[10][D8000][GTL] 40.004 DISP Please disconnect all cables from UUT. 40.004 DISP This concludes the verification of the PM 3320A/413. 40.005 END