User Contributed MET/CAL PROCEDURE ============================================================================= INSTRUMENT: SUB Philips PM 6680: IEEE DATE: 01-Apr-93 AUTHOR: User Contributed REVISION: 1.0 ADJUSTMENT THRESHOLD: 95% NUMBER OF TESTS: 54 NUMBER OF LINES: 304 CONFIGURATION: Fluke 6060B CONFIGURATION: Philips PM 5191 CONFIGURATION: Fluke 8842A CONFIGURATION: Philips PM 3365A ============================================================================= STEP FSC RANGE NOMINAL TOLERANCE MOD1 MOD2 3 4 CON 1.001 ASK+ D 1.002 ASK- R N 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 Switch-on the UUT. 1.004 DISP 1.004 DISP Connect the IEEE cable to UUT from ATE. 1.004 DISP Connect 6062A Output to channel A using coaxial cable. 1.004 DISP Connect WWV Output to External reference input. 1.005 IEEE [TERM LF] 1.006 HEAD Checking Option Configuration 1.007 IEEE *IDN?[I$] 1.008 DOS get_num 4 , 1.009 MATH m[1]=mem 1.010 IEEE *OPT?[I$] 1.011 DOS get_num 2 , 1.012 MATH M[2]=MEM 1.013 IEEE :SYST:PRES;:INP:IMP 50;:INP:ATT 1[10] 1.014 OPBR Does UUT have TCXO option (PM9678A, PM9690, PM9691) ? 1.015 JMPF 4.002 1.016 OPBR Does UUT have a 02 TCXO option (PM 9678A) ? 1.017 JMPT 1.020 1.018 OPBR Does UUT have a 04 TCXO option (PM 9690) ? 1.019 JMPT 2.002 1.020 HEAD {INTERNAL OSCILLATOR TEST MTXCO (PM 9678B, 02)} 1.021 6060 10000000H 200mV -D S 1.022 IEEE READ?[I];READ?[I];[D1000];READ?[I][10] 1.023 MEME 1.024 MEMC 2000 Hz 17U 2.001 JMP 5.001 2.002 HEAD {INTERNAL OSCILLATOR TEST MTXCO (PM 9690, 04)} 2.003 6060 10000000H 200mV -D S 2.004 IEEE READ?[I];READ?[I];[D1000];READ?[I][10] 2.005 MEME 2.006 MEMC 2000 Hz 2.2U 3.001 JMP 5.001 3.002 HEAD {INTERNAL OSCILLATOR TEST MTXCO (PM 9691, 05)} 3.003 6060 10000000H 200mV -D S 3.004 IEEE READ?[I];READ?[I];[D1000];READ?[I][10] 3.005 MEME 3.006 MEMC 2000 Hz 5U 4.001 JMP 5.001 4.002 HEAD {INTERNAL OSCILLATOR TEST} 4.003 6060 10000000H 200mV -D S 4.004 IEEE READ?[I];READ?[I];[D1000];READ?[I][10] 4.005 MEME 4.006 MEMC 2000 Hz 100U 5.001 HEAD {FREQUENCY ACCURACY TEST CHANNEL A} 5.002 IEEE :SENSE:ROSC:SOUR EXT;:INP:IMP 50;:INP:ATT 1[10] 5.003 6060 1MH 20mV -D S 5.004 IEEE READ?[I];READ?[I];[D1000];READ?[I][10] 5.005 MATH MEM=MEM/1E6 5.006 MEMC 2000 1.000000MH 0.0001% 20mV 6.001 6060 25MH 20mV -D S 6.002 IEEE READ?[I];READ?[I];[D1000];READ?[I][10] 6.003 MATH MEM=MEM/1E6 6.004 MEMC 2000 25.000000MH 0.00001% 20mV 7.001 6060 50MH 20mV -D S 7.002 IEEE READ?[I];READ?[I];[D1000];READ?[I][10] 7.003 MATH MEM=MEM/1E6 7.004 MEMC 2000 50.000000MH 0.00001% 20mV 8.001 6060 150MH 30mV -D S 8.002 IEEE READ?[I];READ?[I];[D1000];READ?[I][10] 8.003 MATH MEM=MEM/1E6 8.004 MEMC 2000 150.000000MH 0.00001% 30mV 9.001 6060 200MH 40mV -D S 9.002 IEEE READ?[I];READ?[I];[D1000];READ?[I][10] 9.003 MATH MEM=MEM/1E6 9.004 MEMC 2000 200.000000MH 0.00001% 40mV 10.001 6060 225MH 40mV -D S 10.002 IEEE READ?[I];READ?[I];[D1000];READ?[I][10] 10.003 MATH MEM=MEM/1E6 10.004 MEMC 2000 225.000000MH 0.00001% 40mV 11.001 HEAD {FREQUENCY ACCURACY TEST CHANNEL B} 11.002 DISP Connect 6062A RF Output to channel B using coaxial cable 11.003 IEEE :SYST:PRES;:INP2:IMP 50;:INP2:ATT 1[10];:FUNC 'FREQ 2' 11.003 IEEE :ROSC:SOUR EXT[10] 11.004 6060 1MH 20mV -D S 11.005 IEEE READ?[I];READ?[I];[D1000];READ?[I][10] 11.006 MATH MEM=MEM/1E6 11.007 MEMC 2000 1.000000MH 0.0001% 20mV 12.001 6060 25MH 20mV -D S 12.002 IEEE READ?[I];READ?[I];[D1000];READ?[I][10] 12.003 MATH MEM=MEM/1E6 12.004 MEMC 2000 25.000000MH 0.00001% 20mV 13.001 6060 50MH 20mV -D S 13.002 IEEE READ?[I];READ?[I];[D1000];READ?[I][10] 13.003 MATH MEM=MEM/1E6 13.004 MEMC 2000 50.000000MH 0.00001% 30mV 14.001 6060 150MH 30mV -D S 14.002 IEEE READ?[I];READ?[I];[D1000];READ?[I][10] 14.003 MATH MEM=MEM/1E6 14.004 MEMC 2000 150.000000MH 0.00001% 30mV 15.001 HEAD CHANNEL C OPTION TEST 15.002 MATH MEM1=m[2] 15.003 JMPZ 25.001 15.004 DISP Connect 6062A RF Output to channel C using coaxial cable 15.005 MATH MEM1=m[2]-9625 15.006 JMPZ 15.011 15.007 MATH MEM1=m[2]-9624 15.008 JMPZ 18.002 15.009 MATH MEM1=m[2]-9621 15.010 JMPZ 21.002 15.011 HEAD {CHANNEL C OPTION TEST (PM 9625)} 15.012 6060 150MH 20mV -D S 15.013 IEEE :SYST:PRES;:ROSC:SOUR EXT;:FUNC 'FREQ 3'[10] 15.014 IEEE READ?[I][D500];READ?[I][10] 15.015 MATH MEM=MEM/1E6 15.016 MEMC 2000 150.000000MH 0.00001% 20mV 16.001 6060 300MH 10mV -D S 16.002 IEEE READ?[I][D500];READ?[I][10] 16.003 MATH MEM=MEM/1E6 16.004 MEMC 2000 300.000000MH 0.00001% 10mV 17.001 6060 2100MH 10mV -D S 17.002 IEEE READ?[I][D500];READ?[I][10] 17.003 MATH MEM=MEM/1E6 17.004 MEMC 2000 2100.000000MH 0.00001% 10mV 18.001 JMP 25.001 18.002 HEAD {CHANNEL C OPTION TEST (PM 9624)} 18.003 6060 100MH 20mV -D S 18.004 IEEE :SYST:PRES;:ROSC:SOUR EXT;:FUNC 'FREQ 3'[10] 18.005 IEEE READ?[I][D500];READ?[I][10] 18.006 MATH MEM=MEM/1E6 18.007 MEMC 2000 100.000000MH 0.00001% 20mV 19.001 6060 300MH 10mV -D S 19.002 IEEE READ?[I][D500];READ?[I][10] 19.003 MATH MEM=MEM/1E6 19.004 MEMC 2000 300.000000MH 0.00001% 10mV 20.001 6060 2100MH 10mV -D S 20.002 IEEE READ?[I][D500];READ?[I][10] 20.003 MATH MEM=MEM/1E6 20.004 MEMC 2000 2100.000000MH 0.00001% 10mV 21.001 JMP 25.001 21.002 HEAD {CHANNEL C OPTION TEST (PM 9621)} 21.003 6060 70MH 10mV -D S 21.004 IEEE :SYST:PRES;:ROSC:SOUR EXT;:FUNC 'FREQ 3'[10] 21.005 IEEE READ?[I][D500];READ?[I][10] 21.006 MATH MEM=MEM/1E6 21.007 MEMC 2000 70.000000MH 0.00001% 10mV 22.001 6060 900MH 15mV -D S 22.002 IEEE READ?[I][D500];READ?[I][10] 22.003 MATH MEM=MEM/1E6 22.004 MEMC 2000 900.000000MH 0.00001% 15mV 23.001 6060 1100MH 15mV -D S 23.002 IEEE READ?[I][D500];READ?[I][10] 23.003 MATH MEM=MEM/1E6 23.004 MEMC 2000 1100.000000MH 0.00001% 15mV 24.001 6060 1300MH 40mV -D S 24.002 IEEE READ?[I][D500];READ?[I][10] 24.003 MATH MEM=MEM/1E6 24.004 MEMC 2000 1300.000000MH 0.00001% 40mV 25.001 HEAD {Channel A VMAX/VMIN (DC input)} 25.002 5191 * S 25.003 IEEE [TERM LF]*RST;:INP:COUP DC;:FUNC 'VOLT:MAX 1'[10] 25.003 IEEE :READ?[I];:READ?[I][10] 25.004 MEMC 200 0.00V 0.03U VMAX 26.001 IEEE :FUNC 'VOLT:MIN 1';:READ?[I];:READ?[I][10] 26.002 MEMC 200 0.00V 0.03U VMIN 27.001 DISP Disconnect 6060 from the UUT. 27.001 DISP 27.001 DISP Connect 519x to channel A. 27.001 DISP Connect 8840A to TRIG LEVEL A out @ rear of UUT. 27.001 DISP Connect Oscilloscope to Probe Comp View (Channel A) 27.001 DISP at the rear of the UUT. 27.002 HEAD {Channel A VMAX/VMIN (AC Input)} 27.003 IEEE [@5191]MOWSF1E5LD0LA18AC1[10] 27.004 IEEE *RST;:FUNC 'VOLT:MAX 1';:READ?[I];:READ?[I][10] 27.005 MEMC 200 9.00V 1.6U VMAX 28.001 IEEE [@5191]MOWSF1E5LD0LA18AC1[10] 28.002 IEEE :FUNC 'VOLT:MIN 1';:READ?[I];:READ?[I][10] 28.003 MEMC 200 -9.00V 1.6U VMIN 29.001 HEAD {Period A Test} 29.002 IEEE [@5191]MOWSF10000000LA2.5LD0AC1[10] 29.003 IEEE :SYST:PRES;:INP:IMP 50;INP:LEV:AUTO OFF 29.004 IEEE :FUNC 'PER 1';:READ?[I][D100];:READ?[I][10] 29.005 MEM* 1000000000 29.006 MEMC 200 100.00nS 10U 100nS 30.001 HEAD {RATIO A/B TEST} 30.002 IEEE [@5191]MOWSF10000000LA2.5LD0AC1[10] 30.003 IEEE :INP2:COMM ON;:FUNC 'FREQ:RAT 1[44]2'[10] 30.003 IEEE :READ?[I][D100];:READ?[I][10] 30.004 MEMC 200 1.00S 1U 31.001 HEAD {PULSE WIDTH A TEST} 31.002 IEEE [@5191]MOWSF10000000LA2.5LD0AC1[10] 31.003 IEEE :FUNC 'PWID 1'[10] 31.003 IEEE :READ?[I][D100];:READ?[I][10] 31.004 MEM* 1000000000 31.005 MEMC 200 50.00nS 10U 32.001 HEAD {TIME A-B (NEG SLOPE B) TEST} 32.002 IEEE [@5191]MOWSF10000000LA2.5LD0AC1[10] 32.003 IEEE :FUNC 'TINT 1[44]2';:INP2:SLOP NEG[10] 32.003 IEEE :READ?[I][D100];:READ?[I][10] 32.004 MEM* 1000000000 32.005 MEMC 200 50.00nS 10U 33.001 HEAD {PHASE A-B TEST} 33.002 IEEE [@5191]MOWSF10000000LA2.5LD0AC1[10] 33.003 IEEE :FUNC 'PHAS 1[44]2';:INP2:SLOP NEG[10] 33.003 IEEE :READ?[I][D100];:READ?[I][10] 33.004 MEME 33.005 MEME 180 33.006 JMPT 33.010 33.007 IEEE :READ?[I][D100];:READ?[I][10] 33.008 MEME 33.009 MEME -180 33.010 MEMC 200 S 20U 34.001 HEAD {Channel A TRIGGER INDICATORS} 34.002 IEEE *RST;:INP:LEV:AUTO OFF;:INP:ATT 1;:INP:IMP 1E6[10] 34.003 IEEE [@5191]MOWSF10000LA1LD.5AC1 34.004 EVAL {Trigger A LED should be blinking} 35.001 IEEE :INP:ATT 10;:INP:LEV MAX;INP:ATT 1[GTL] 35.002 EVAL {Trigger A LED should be off } 36.001 IEEE :INP:ATT 10;:INP:LEV MIN;INP:ATT 1[GTL] 36.002 EVAL {Trigger A LED should be on } 37.001 HEAD {TRIGGER LEVEL OUTPUT (Channel A)} 37.002 IEEE *RST;:INP:LEV:AUTO OFF;:INP:ATT 1;:INP:IMP 1E6[10] 37.003 8842 2000 0.0mV 50U 2W 38.001 IEEE :INP:LEV 5[GTL] 38.002 8842 2000 500.0mV 50U 2W 39.001 IEEE :INP:LEV -5[GTL] 39.002 8842 2000 -500.0mV 50U 2W 40.001 HEAD {PROBE COMP VIEW (Channel A)} 40.002 IEEE *RST;:INP:LEV:AUTO OFF;:INP:ATT 1[GTL] 40.002 IEEE [@5191]MOWQF2000LD0LA4AC1[10] 40.003 IEEE [@3365]VER A,SET AUT,FCN ON,ATT .1E+00,CPL DC[10] 40.004 IEEE [@3365]VER B,FCN OFF[10] 40.005 IEEE [@3365]HOR MTB,FCN ON,TIM .1E-03[10][GTL] 40.006 EVAL CH A Prob Comp has 2Khz square wave, 4Vpp 41.001 HEAD {Channel B VMAX/VMIN (DC input)} 41.002 IEEE [@5191]MOLD0F0AC0[10] 41.003 IEEE *RST;:SYST:PRES;:INP2:IMP 1E6;:INP2:COUP DC[10] 41.003 IEEE :FUNC 'VOLT:MAX 2';READ?[I][D100];READ?[I][10] 41.004 MEMC 200 0.00V 0.03U VMAX 42.001 IEEE :FUNC 'VOLT:MIN 2';READ?[I][D100];READ?[I][10] 42.002 MEMC 200 0.00V 0.03U VMIN 43.001 DISP Connect 5192/93 to UUT Channel B input. 43.001 DISP Connect 8840A to TRIG LEVEL B out @ rear of UUT. 43.001 DISP Connect Oscilloscope to Probe Comp View (Channel B) 43.001 DISP at the rear of the UUT. 43.001 DISP Connect Oscilloscope (Channel B) to 10 Mhz out, 43.001 DISP using coax cable with 50 ohm load. 43.002 HEAD {Channel B VMAX/VMIN (AC input)} 43.003 IEEE [@5191]MOWSF1E5LD0LA18AC1[10] 43.004 IEEE *RST;:INP2:COUP AC[10] 43.005 IEEE :FUNC 'VOLT:MAX 2';READ?[I][D100];READ?[I][10] 43.006 MEMC 200 9.00V 1.6U VMAX 44.001 IEEE [@5191]MOWSF1E5LD0LA18AC1[10] 44.002 IEEE :FUNC 'VOLT:MIN 2';READ?[I][D100];READ?[I][10] 44.003 MEMC 200 -9.00V 1.6U VMIN 45.001 HEAD {Channel B TRIGGER INDICATORS} 45.002 IEEE [@5191]MOWSF10000LA1LD.5AC1 45.003 IEEE *RST;:INP:LEV:AUTO OFF;:INP:ATT 1;:INP:IMP 1E6[10] 45.004 IEEE :INP2:COUP AC;:INP2:LEV:AUTO OFF;:INP2:LEV 0[GTL] 45.005 EVAL {Trigger B LED should be blinking} 46.001 IEEE :INP2:ATT 10;:INP2:LEV MAX;INP2:ATT 1[GTL] 46.002 EVAL {Trigger B LED should be off } 47.001 IEEE :INP2:ATT 10;:INP2:LEV MIN;INP2:ATT 1[GTL] 47.002 EVAL {Trigger B LED should be on } 48.001 HEAD {TRIGGER LEVEL OUTPUT (Channel B)} 48.002 IEEE *RST;:INP:LEV:AUTO OFF;:INP:ATT 1;:INP:IMP 1E6[10] 48.003 IEEE :INP2:COUP AC;:INP2:LEV:AUTO OFF;:INP2:LEV 0[GTL] 48.004 8842 2000 0.0mV 50U 2W 49.001 IEEE :INP2:LEV 5[GTL] 49.002 8842 2000 500.0mV 50U 2W 50.001 IEEE :INP2:LEV -5[GTL] 50.002 8842 2000 -500.0mV 50U 2W 51.001 HEAD {PROBE COMP VIEW (Channel B)} 51.002 IEEE [@5191]MOWQF2000LD0LA4AC1[10] 51.003 IEEE *RST;:INP:LEV:AUTO OFF;:INP:ATT 1 51.003 IEEE INP2:LEV:AUTO OFF;:INP2:ATT 1[GTL] 51.004 IEEE [@3365]VER A,SET AUT,FCN ON,ATT .1E+00,CPL DC[10] 51.005 IEEE [@3365]VER B,FCN OFF[10] 51.006 IEEE [@3365]HOR MTB,FCN ON,TIM .1E-03[10][GTL] 51.007 EVAL CH B Prob Comp has 2Khz square wave, 4Vpp 52.001 HEAD {EXTERNAL REFERANCE OUTPUT} 52.002 IEEE [@3365]VER B,SET AUT,FCN ON,ATT .5E+00,CPL DC[10] 52.003 IEEE [@3365]VER A,FCN OFF[10] 52.004 IEEE [@3365]HOR MTB,FCN ON,TIM .1E-06[10][GTL] 52.005 EVAL The 10 Mhz output should be a sine wave > 1.4Vpp. 53.001 HEAD {GATE MONITOR OUTPUT} 53.002 DISP Connect Oscilloscope (Channel B) to GATE MONITOR Out, 53.002 DISP using coax cable with 50 ohm load. 53.003 IEEE *RST;:TEST:CHEC 1;:INP:LEV:AUTO OFF;:ACQ:APER 5E-3[GTL] 53.004 IEEE [@3365]VER B,SET AUT,FCN ON,ATT .5E+00,CPL DC[10] 53.005 IEEE [@3365]VER A,FCN OFF[10] 53.006 IEEE [@3365]HOR MTB,FCN ON,TIM 2E-03[10][GTL] 53.007 EVAL Gate Monitor should give a positive pulse > 1.4 Vpp 54.001 IEEE [@5191]MOAC0[GTL] 54.002 IEEE :SYST:PRES[10] 54.003 HEAD The END