User Contributed MET/CAL PROCEDURE ============================================================================= INSTRUMENT: Philips PM 5193 DATE: 18-May-93 AUTHOR: User Contributed REVISION: 1.0 ADJUSTMENT THRESHOLD: 95% NUMBER OF TESTS: 98 NUMBER OF LINES: 396 CONFIGURATION: Fluke 8842A CONFIGURATION: Philips PM 5191 CONFIGURATION: Philips PM 6654C CONFIGURATION: HP 8568A CONFIGURATION: HP 8901A CONFIGURATION: HP 436A CONFIGURATION: Philips PM 3365A ============================================================================= STEP FSC RANGE NOMINAL TOLERANCE MOD1 MOD2 3 4 CON 1.001 ASK- R N P F W 1.002 MEM2 = 1.003 HEAD INTRODUCTION 1.004 DISP This procedure is intended to: 1.004 DISP - Check the instrument's specification. 1.004 DISP - Check the necessity of re-calibration. 1.004 DISP 1.004 DISP NOTE: 30 Minutes warmup is required before testing 1.005 HEAD {Frequency Referance Accuracy} 1.006 DISP Connect UUT RF output to the 6654 Channel A input. 1.007 IEEE [TERM LF]MO F1E6 WS LA10 LD0 AC1[10] 1.008 IEEE [@6654]D MS1 F1[I]X[I] 1.009 MATH MEM=MEM/1E6 1.010 MEMC 1.0000000MH 0.000001U 2.001 IEEE [TERM LF]MO F10E6 WS LA10 LD0 AC1[10] 2.002 IEEE [@6654]MS1 X[I]X[I] 2.003 MATH MEM=MEM/1E6 2.004 MEMC 10.000000MH 0.00001U 3.001 HEAD {Internal Modulation Oscillator Frequency Accuracy} 3.002 DISP Connect UUT MODULATION OUTPUT (Rear panel) 3.002 DISP to the 6654 Channel A input. 3.002 DISP Connect UUT RF output to the 8901 RF input. 3.002 DISP Connect the 8901 MODULATION output to the 3.002 DISP 8568 Port 1 RF input (BNC). 3.003 IEEE F1E3 FM10 LM50 MA1[10] 3.004 IEEE [@6654]D MS1 F1 X[I]X[I] 3.005 MEMC 10.00000H 20% 4.001 IEEE FM990[10] 4.002 IEEE [@6654]X[I]X[I] 4.003 MEMC 990.0000H 3% 5.001 IEEE FM1000[10] 5.002 IEEE [@6654]X[I]X[I] 5.003 MEMC 1000.000H 3% 6.001 IEEE FM9900[10] 6.002 IEEE [@6654]X[I]X[I] 6.003 MEMC 9900.000H 3% 7.001 IEEE FM10000[10] 7.002 IEEE [@6654]X[I]X[I] 7.003 MEMC 10000.00H 3% 8.001 IEEE FM200000[10] 8.002 IEEE [@6654]X[I]X[I] 8.003 MEMC 200000.0H -5% +10% 9.001 HEAD {RMS Frequency Jitter (FM Residual 15Hz-20Khz)} 9.002 IEEE [TERM LF]MO F4E6 WS LD0 LA5 AC1[10] 9.003 CALL SUB FM RESIDUAL Measurement 9.004 MEMC 2000 1200H +1200U 4Mhz 10.001 IEEE F40E6[10] 10.002 CALL SUB FM RESIDUAL Measurement 10.003 MEMC 2000 1200H +1200U 40Mhz 11.001 IEEE F50E6[10] 11.002 CALL SUB FM RESIDUAL Measurement 11.003 MEMC 2000 1200H +1200U 50Mhz 12.001 HEAD {Internal AM Accuracy (50% AM Depth)} 12.002 IEEE [TERM LF]MO F4E6 WS LM50 FM1E3 MA1[10] 12.003 CALL SUB AM Measurement 12.004 MESS {Frequency 4 Mhz, Mod Freq 1 Khz} 12.005 MEMC 200 50.00 3U 13.001 IEEE F40E6[10] 13.002 CALL SUB AM Measurement 13.003 MESS {Frequency 40 Mhz, Mod Freq 1 Khz} 13.004 MEMC 200 50.00 4U 14.001 IEEE [@8568][TERM LF]IP FA.5KZ FB5.5KZ I1[10] 14.002 IEEE [@8568]S1 TS[10][D5000] 14.003 IEEE [@8568]E1 MA[10][I]M2 M3[10]FA1.5KZ FB6.5KZ[10] 14.004 IEEE [@8568]S1 TS[10][D5000]E1 MA[10][I] 14.005 MEMC 200 -40.0dBc +60U distortion 15.001 IEEE F40E6 FM50E3[10] 15.002 CALL SUB AM Measurement 15.003 MESS {Frequency 40 Mhz, Mod Freq 50 Khz} 15.004 MEMC 200 50.00 4U 16.001 IEEE FM200E3[10] 16.002 CALL SUB AM Measurement 16.003 MESS {Frequency 40 Mhz, Mod Freq 200 Khz} 16.004 MEMC 200 50.00 -5U +10U 17.001 IEEE [@8568]IP[10] 17.002 HEAD {FM Deviation} 17.003 IEEE [@8901]M2 L0 H0 D[10] 17.004 IEEE [TERM LF]MOF10000E3WSLD0LA5AC1FM1E3FD200E3MF1[10] 17.005 CALL SUB FM Measurement 17.006 MEMC 200 200.00KH 40U 10Mhz 18.001 IEEE F30E6[10] 18.002 CALL SUB FM Measurement 18.003 MEMC 200 200.00KH 40U 30Mhz 19.001 IEEE [TERM LF]MO WS F10E6 FM1000 MF1 FD50E3 LD0 LA5 AC1[10] 19.002 CALL SUB FM Measurement 19.003 MEMC 200 50.00KH 10U 10Mhz 20.001 IEEE F30E6[10] 20.002 CALL SUB FM Measurement 20.003 MEMC 200 50.00KH 10U 30Mhz 21.001 IEEE [@8568][TERM LF]IP FA.5KZ FB5.5KZ I1[10] 21.002 IEEE [@8568]S1 TS[10][D5000] 21.003 IEEE [@8568]E1 MA[10][I]M2 M3[10]FA1.5KZ FB6.5KZ[10] 21.004 IEEE [@8568]S1 TS[10][D5000]E1 MA[10][I] 21.005 MEMC 200 -37.0Dbc +63U distortion 22.001 IEEE [@8568]IP[10] 22.002 HEAD {AC Output Amplitude (10 Khz Sinewave)} 22.003 DISP Connect UUT RF output to 8840 input. 22.003 DISP 22.003 DISP NOTE: Terminate with 50 ohm load. 22.004 IEEE [TERM LF]MO F10E3 WS LD0 LA12.8 AC1[10][D2000] 22.005 8842 200 2.26250V 2% 10kH 2W 23.001 IEEE LA6.4[10] 23.002 8842 200 1.13150V 2% 10kH 2W 24.001 IEEE LA3.2[10] 24.002 8842 200 0.56550V 2% 10kH 2W 25.001 IEEE LA3.1[10] 25.002 8842 200 0.54800V 2.5% 10kH 2W 26.001 IEEE LA1.28[10] 26.002 8842 200 0.22650V 2.5% 10kH 2W 27.001 IEEE LA.128[10] 27.002 8842 200 0.02260V 3% 10kH 2W 28.001 HEAD {AC Output Amplitude (10 Khz Squarewave)} 28.002 IEEE LA10WQ[10] 28.003 8842 200 2.50000V 3% 10kH 2W 29.001 HEAD {AC Output Amplitude (10 Khz Haversine)} 29.002 IEEE LA10WH[10] 29.003 8842 200 1.76800V 3% 10kH 2W 30.001 HEAD {AC Output Amplitude (10 Khz Positive Sawtooth)} 30.002 IEEE LA10RP AC1[10] 30.003 8842 200 1.44350V 3% 10kH 2W 31.001 HEAD {AC Output Amplitude (10 Khz Negative Sawtooth)} 31.002 IEEE LA10RN AC1[10] 31.003 8842 200 1.44350V 3% 10kH 2W 32.001 HEAD {AC Output Amplitude (10 Khz Positive Pulse)} 32.002 IEEE LA10PP AC1[10] 32.003 8842 200 2.50000V 3% 10kH 2W 33.001 HEAD {AC Output Amplitude (10 Khz Negative Pulse)} 33.002 IEEE LA10PN AC1[10] 33.003 8842 200 2.50000V 3% 10kH 2W 34.001 HEAD {AC Output Amplitude (10 Khz Triangular Wave)} 34.002 IEEE LA20WT AC1[10] 34.003 8842 200 2.88650V 3% 10kH 2W 35.001 HEAD {DC Voltage Accuracy} 35.002 IEEE [TERM LF]MO F1E3 WS LA1 AC0 LD-10[10][D2000] 35.003 8842 200 -5.000V 2% 0.03U 2W 36.001 IEEE LD-5[10] 36.002 8842 200 -2.500V 2% 0.03U 2W 37.001 IEEE LD-1[10] 37.002 8842 200 -0.500V 2% 0.03U 2W 38.001 IEEE LD0[10] 38.002 8842 200 0.000V 2% 0.03U 2W 39.001 IEEE LD1[10] 39.002 8842 200 0.500V 2% 0.03U 2W 40.001 IEEE LD5[10] 40.002 8842 200 2.500V 2% 0.03U 2W 41.001 IEEE LD10[10] 41.002 8842 200 5.000V 2% 0.03U 2W 42.001 HEAD {DC Voltage Offset (10Mhz, 20Vpp)} 42.002 IEEE [TERM LF]MO F10E6 LD0 LA20 WS AC1[10][D10000] 42.003 8842 200 0.000V 0.080U 2W 43.001 HEAD {DC Voltage Offset (20Mhz, 20Vpp)} 43.002 IEEE F20E6[10] 43.003 8842 200 0.000V 0.080U 2W 44.001 HEAD {DC Voltage Offset (30Mhz, 20Vpp)} 44.002 IEEE F30E6[10] 44.003 8842 200 0.000V 0.080U 2W 45.001 HEAD {DC Voltage Offset (40Mhz, 20Vpp)} 45.002 IEEE F40E6[10] 45.003 8842 200 0.000V 0.080U 2W 46.001 HEAD {DC Voltage Offset (50Mhz, 20Vpp)} 46.002 IEEE F50E6[10] 46.003 8842 200 0.000V 0.080U 2W 47.001 HEAD {Harmonics - 2 Mhz, 20Vpp} 47.002 IEEE [TERM LF]MO F2E6 LD0 LA20 AC1[10][GTL] 47.003 IEEE [@8568][TERM LF]S1,[D200]CF2MZ,SP1MZ,RL25DM[10] 47.004 DISP Connect UUT RF Output to the 8568 Port 2 RF input (N). 47.005 IEEE [@8568]S2,TS,[D200]M2,E1,[D10]M3[10] 47.006 IEEE [@8568]CF4MZ,TS[D200],E1,MA[10][I] 47.007 MEM- 2 47.008 MEMC 200 -37.0dBc +63U 4Mhz(2nd) 48.001 IEEE [@8568]CF6MZ,TS[D200],E1,MA[10][I] 48.002 MEM- 2 48.003 MEMC 200 -37.0dBc +63U 6Mhz(3rd) 49.001 IEEE [@8568]CF8MZ,TS[D200],E1,MA[10][I] 49.002 MEM- 2 49.003 MEMC 200 -37.0dBc +63U 8Mhz(4th) 50.001 MEM- 2 50.002 HEAD {Harmonics - 10 Mhz, 20Vpp} 50.003 IEEE F10E6[10][GTL][D500] 50.004 IEEE [@8568][TERM LF]S1,[D200]CF10MZ,SP1.5MZ,RL25DM[10] 50.005 IEEE [@8568]S2,TS,[D200]M2,E1,[D10]M3[10] 50.006 IEEE [@8568]CF20MZ,TS[D200],E1,MA[10][I] 50.007 MEM- 2 50.008 MEMC 200 -37.0dBc +63U 20Mhz(2nd) 51.001 IEEE [@8568]CF30MZ,TS[D200],E1,MA[10][I] 51.002 MEM- 2 51.003 MEMC 200 -37.0dBc +63U 30Mhz(3rd) 52.001 IEEE [@8568]CF40MZ,TS[D200],E1,MA[10][I] 52.002 MEM- 2 52.003 MEMC 200 -37.0dBc +63U 40Mhz(4th) 53.001 HEAD {Harmonics - 20 Mhz, 20Vpp} 53.002 IEEE F20E6[10][GTL][D500] 53.003 IEEE [@8568][TERM LF]S1,[D200]CF20MZ,SP1.5MZ,RL25DM[10] 53.004 IEEE [@8568]S2,TS,[D200]M2,E1,[D10]M3[10] 53.005 IEEE [@8568]CF40MZ,TS[D200],E1,MA[10][I] 53.006 MEM- 2 53.007 MEMC 200 -31.0dBc +69U 40Mhz(2nd) 54.001 IEEE [@8568]CF60MZ,TS[D200],E1,MA[10][I] 54.002 MEM- 2 54.003 MEMC 200 -31.0dBc +69U 60Mhz(3rd) 55.001 IEEE [@8568]CF80MZ,TS[D200],E1,MA[10][I] 55.002 MEM- 2 55.003 MEMC 200 -31.0dBc +69U 80Mhz(4th) 56.001 HEAD {Harmonics - 20 Mhz, 9mVpp} 56.002 IEEE F20E6 LD0 LA.009[10][GTL][D500] 56.003 IEEE [@8568][TERM LF]S1,[D200]CF20MZ,SP.5MZ,RL-35DM[10] 56.004 IEEE [@8568]S2,TS,[D200]M2,E1,[D10]M3[10] 56.005 IEEE [@8568]CF40MZ,TS[D200],E1,MA[10][I] 56.006 MEM- 2 56.007 MEMC 200 -20.0dBc +80U 40Mhz(2nd) 57.001 IEEE [@8568]CF60MZ,TS[D200],E1,MA[10][I] 57.002 MEM- 2 57.003 MEMC 200 -20.0dBc +80U 60Mhz(3rd) 58.001 IEEE [@8568]CF80MZ,TS[D200],E1,MA[10][I] 58.002 MEM- 2 58.003 MEMC 200 -20.0dBc +80U 80Mhz(4th) 59.001 HEAD {Harmonics - 30 Mhz, 9mVpp} 59.002 IEEE F30E6 LA.009[10][GTL][D500] 59.003 IEEE [@8568][TERM LF]S1,[D200]CF30MZ,SP.5MZ,RL-35DM[10] 59.004 IEEE [@8568]S2,TS,[D200]M2,E1,[D10]M3[10] 59.005 IEEE [@8568]CF60MZ,TS[D200],E1,MA[10][I] 59.006 MEM- 2 59.007 MEMC 200 -20.0dBc +80U 60Mhz(2nd) 60.001 IEEE [@8568]CF90MZ,TS[D200],E1,MA[10][I] 60.002 MEM- 2 60.003 MEMC 200 -20.0dBc +80U 90Mhz(3rd) 61.001 IEEE [@8568]CF120MZ,TS[D200],E1,MA[10][I] 61.002 MEM- 2 61.003 MEMC 200 -20.0dBc +80U 120Mhz(4th) 62.001 HEAD {Harmonics - 50 Mhz, 9mVpp} 62.002 IEEE F50E6 LA.009[10][GTL][D500] 62.003 IEEE [@8568][TERM LF]S1,[D200]CF50MZ,SP.5MZ,RL-35DM[10] 62.004 IEEE [@8568]S2,TS,[D200]M2,E1,[D10]M3[10] 62.005 IEEE [@8568]CF100MZ,TS[D200],E1,MA[10][I] 62.006 MEM- 2 62.007 MEMC 200 -20.0dBc +80U 100Mhz(2nd) 63.001 IEEE [@8568]CF150MZ,TS[D200],E1,MA[10][I] 63.002 MEM- 2 63.003 MEMC 200 -20.0dBc +80U 150Mhz(3rd) 64.001 IEEE [@8568]CF200MZ,TS[D200],E1,MA[10][I] 64.002 MEM- 2 64.003 MEMC 200 -20.0dBc +80U 200Mhz(4th) 65.001 HEAD {Non harmonic spurs (20 Mhz, 100mVpp)} 65.002 IEEE F20E6 LA.1[10][GTL][D500] 65.003 IEEE [@8568]IP,FA15MZ,FB25MZ,RB30KZ,VB3KZ,S1,M2,RL-10DM[10] 65.004 IEEE [@8568]S2,TS[10][GTL][D1000]E1,M3[10] 65.005 IEEE [@8568]FA1MZ,FB19MZ,S2,TS[10][D500]E1,MA[10][I] 65.006 MEMC 200 -40.0dBc +60.00U <20Mhz 66.001 IEEE [@8568]FA21MZ,FB39MZ,S2,TS[10][D500]E1,MA[10][I] 66.002 MEMC 200 -40.0dBc +60.00U >20,<40Mhz 67.001 IEEE [@8568]FA41MZ,FB59MZ,S2,TS[10][D500]E1,MA[10][I] 67.002 MEMC 200 -40.0dBc +60.00U >40,<60Mhz 68.001 IEEE [@8568]FA61MZ,FB79MZ,S2,TS[10][D500]E1,MA[10][I] 68.002 MEMC 200 -40.0dBc +60.00U >60,<80Mhz 69.001 IEEE [@8568]FA81MZ,FB100MZ,S2,TS[10][D500]E1,MA[10][I] 69.002 MEMC 200 -40.0dBc +60.00U >80,<100Mhz 70.001 HEAD {Non harmonic spurs (20 Mhz, 10mVpp)} 70.002 IEEE F20E6 LA.01[10][GTL][D500] 70.003 IEEE [@8568]IP,FA15MZ,FB25MZ,RB30KZ,VB3KZ,S1,M2,RL-35DM[10] 70.004 IEEE [@8568]S2,TS[10][D1000]E1,M3[10] 70.005 IEEE [@8568]FA1MZ,FB19MZ,S2,TS[10][D500]E1,MA[10][I] 70.006 MEMC 200 -23.0dBc +60.00U <20Mhz 71.001 IEEE [@8568]FA21MZ,FB39MZ,S2,TS[10][D500]E1,MA[10][I] 71.002 MEMC 200 -23.0dBc +60.00U >20,<40Mhz 72.001 IEEE [@8568]FA41MZ,FB59MZ,S2,TS[10][D500]E1,MA[10][I] 72.002 MEMC 200 -23.0dBc +60.00U >40,<60Mhz 73.001 IEEE [@8568]FA61MZ,FB79MZ,S2,TS[10][D500]E1,MA[10][I] 73.002 MEMC 200 -23.0dBc +60.00U >60,<80Mhz 74.001 IEEE [@8568]FA81MZ,FB100MZ,S2,TS[10][D500]E1,MA[10][I] 74.002 MEMC 200 -23.0dBc +60.00U >80,<100Mhz 75.001 HEAD {Non harmonic spurs (30 Mhz, 100mVpp)} 75.002 IEEE F30E6 LA.1[10][GTL][D500] 75.003 IEEE [@8568]IP,FA25MZ,FB35MZ,RB30KZ,VB3KZ,S1,M2,RL-10DM[10] 75.004 IEEE [@8568]S2,TS[10][D1000]E1,M3[10] 75.005 IEEE [@8568]FA1MZ,FB29MZ,S2,TS[10][D500]E1,MA[10][I] 75.006 MEMC 200 -40.0dBc +60.00U <30Mhz 76.001 IEEE [@8568]FA31MZ,FB59MZ,S2,TS[10][D500]E1,MA[10][I] 76.002 MEMC 200 -40.0dBc +60.00U >30,<60Mhz 77.001 IEEE [@8568]FA61MZ,FB89MZ,S2,TS[10][D500]E1,MA[10][I] 77.002 MEMC 200 -40.0dBc +60.00U >60,<90Mhz 78.001 IEEE [@8568]FA91MZ,FB100MZ,S2,TS[10][D500]E1,MA[10][I] 78.002 MEMC 200 -40.0dBc +60.00U >90,<100Mhz 79.001 HEAD {Non harmonic spurs (30 Mhz, 10mVpp)} 79.002 IEEE F30E6 LA.01[10][GTL][D500] 79.003 IEEE [@8568]IP,FA25MZ,FB35MZ,RB30KZ,VB3KZ,S1,M2,RL-35DM[10] 79.004 IEEE [@8568]S2,TS[10][D1000]E1,M3[10] 79.005 IEEE [@8568]FA1MZ,FB29MZ,S2,TS[10][D500]E1,MA[10][I] 79.006 MEMC 200 -23.0dBc +77.00U <30Mhz 80.001 IEEE [@8568]FA31MZ,FB59MZ,S2,TS[10][D500]E1,MA[10][I] 80.002 MEMC 200 -23.0dBc +77.00U >30,<60Mhz 81.001 IEEE [@8568]FA61MZ,FB89MZ,S2,TS[10][D500]E1,MA[10][I] 81.002 MEMC 200 -23.0dBc +77.00U >60,<90Mhz 82.001 IEEE [@8568]FA91MZ,FB100MZ,S2,TS[10][D500]E1,MA[10][I] 82.002 MEMC 200 -23.0dBc +77.00U >90,<100Mhz 83.001 HEAD {Non harmonic spurs (50 Mhz, 100mVpp)} 83.002 IEEE F50E6 LA.1[10][GTL][D500] 83.003 IEEE [@8568]IP,FA45MZ,FB55MZ,RB30KZ,VB3KZ,S1,M2,RL-10DM[10] 83.004 IEEE [@8568]S2,TS[10][D1000]E1,M3[10] 83.005 IEEE [@8568]FA1MZ,FB49MZ,S2,TS[10][D500]E1,MA[10][I] 83.006 MEMC 200 -40.0dBc +60.00U <50Mhz 84.001 IEEE [@8568]FA51MZ,FB99MZ,S2,TS[10][D500]E1,MA[10][I] 84.002 MEMC 200 -40.0dBc +60.00U >50Mhz 85.001 HEAD {Non harmonic spurs (50 Mhz, 10mVpp)} 85.002 IEEE F50E6 LA.01[10][GTL][D500] 85.003 IEEE [@8568]IP,FA45MZ,FB55MZ,RB30KZ,VB3KZ,S1,M2,RL-35DM[10] 85.004 IEEE [@8568]S2,TS[10][D1000]E1,M3[10] 85.005 IEEE [@8568]FA1MZ,FB49MZ,S2,TS[10][D500]E1,MA[10][I] 85.006 MEMC 200 -23.0dBc +60.00U <50Mhz 86.001 IEEE [@8568]FA51MZ,FB99MZ,S2,TS[10][D500]E1,MA[10][I] 86.002 MEMC 200 -23.0dBc +60.00U >50Mhz 87.001 IEEE [@8568]IP[10] 87.002 HEAD {AC Output Amplitude (Sinewave, 10Vpp)} 87.003 DISP Connect UUT RF output to 436 power meter 87.003 DISP 87.004 IEEE [TERM LF]MO F200E3 LD0 LA10[10][GTL][D500] 87.005 IEEE [@436][TERM LF]9AV[I][D1000][I][D1000][I] 87.006 MATH mem=mem*1E3 87.007 MEMC 200 62.60mW 4% 200KH 88.001 IEEE F2E6[10][GTL][D500] 88.002 IEEE [@436][TERM LF]9AV[I][D1000][I][D1000][I] 88.003 MATH mem=mem*1E3 88.004 MEMC 200 62.60mW 4% 2MH 89.001 IEEE F10E6[10][GTL][D500] 89.002 IEEE [@436][TERM LF]9AV[I][D1000][I][D1000][I] 89.003 MATH mem=mem*1E3 89.004 MEMC 200 62.60mW 7% 10MH 90.001 IEEE F20E6[10][GTL][D500] 90.002 IEEE [@436][TERM LF]9AV[I][D1000][I][D1000][I] 90.003 MATH mem=mem*1E3 90.004 MEMC 200 62.60mW 16% 20MH 91.001 IEEE F30E6[10][GTL][D500] 91.002 IEEE [@436][TERM LF]9AV[I][D1000][I][D1000][I] 91.003 MATH mem=mem*1E3 91.004 MEMC 200 62.60mW 16% 30MH 92.001 IEEE F40E6[10][GTL][D500] 92.002 IEEE [@436][TERM LF]9AV[I][D1000][I][D1000][I] 92.003 MATH mem=mem*1E3 92.004 MEMC 200 62.60mW 16% 40MH 93.001 IEEE F50E6[10][GTL][D500] 93.002 IEEE [@436][TERM LF]9AV[I][D1000][I][D1000][I] 93.003 MATH mem=mem*1E3 93.004 MEMC 200 59.35mW 16% 50MH 94.001 HEAD {Gate Functional Test} 94.002 DISP Connect UUT RF output to the 3365 Ch A input. 94.002 DISP NOTE: Terminate with a 50 ohm load. 94.002 DISP Connect the UUT MODULATION OUTPUT (rear) to the 94.002 DISP 3365 Ch B input. 94.002 DISP Connect the 5193 RF Output the the UUT MODULATION 94.002 DISP INPUT (rear). 94.003 IEEE [TERM LF]MO F100E3 FM1000 LD0 LA5 AC1 GC1[10] 94.004 IEEE [@3365]FRO 0,SET AUT,VER A,FCN ON,ATT 1E+00,CPL DC[10] 94.004 IEEE [@3365]VER B,FCN ON,ATT 2E+00,CPL DC[10] 94.005 IEEE [@3365]FRO 0,VER A,POS +1000,VER B,POS -3000[10] 94.006 IEEE [@3365]FRO 0,HOR MTB,FCN ON,TIM .2E-03,TSO B[10] 94.007 MESS Check the Gated output signal has a 50 % duty 94.007 MESS cycle and is 2.5Vpp. 94.007 MESS 94.008 EVAL Does the 3365 (Ch A) display a GATED waveform ? 95.001 HEAD {Int BURST - 3 cycles with 1 mS rep rate.} 95.002 IEEE [TERM LF]MO WS F10E3 LD0 LA5 AC1 NB3 NO7 BC1[10] 95.003 IEEE [@3365]FRO 0,SET AUT,VER A,FCN ON,ATT 1E+00,CPL DC[10] 95.003 IEEE [@3365]VER B,FCN ON,ATT 2E+00,CPL DC[10] 95.004 IEEE [@3365]FRO 0,VER A,POS +2000,VER B,POS -3000[10] 95.005 IEEE [@3365]FRO 0,HOR MTB,FCN ON,TIM .2E-03,TSO B[10] 95.006 MESS Scope should display 3 cycles that start on the 95.006 MESS positive slope and repeat every 1 mS. 95.006 MESS 95.007 EVAL Does the 3365 (Ch A) display a BURST waveform ? 96.001 HEAD {Ext BURST - 3 cycles with 1 mS rep rate.} 96.002 IEEE BS2[10][GTL] 96.003 IEEE [@3365]FRO 0,HOR MTB,FCN ON,TIM .2E-03,TSO A[10] 96.004 5191 5V 1kH -D SQ S 96.005 EVAL Does the 3365 (Ch A) display a BURST waveform ? 97.001 5191 * S 97.002 HEAD {Sweep Functional Test} 97.003 IEEE [TERM LF]MO WS FS1E3 FF10E3 TS5 SC3 LD0 LA5 AC1[10] 97.004 EVAL Does the 3365 (Ch A) display a SWEEP waveform ? 98.001 END