Fluke MET/CAL Procedure ============================================================================= INSTRUMENT: Philips PM 3320A: (1 Yr) CAL VER IEEE /5500+SC300,8842 DATE: 03-Oct-97 AUTHOR: Fluke REVISION: $Revision: 1.1 $ ADJUSTMENT THRESHOLD: 70% NUMBER OF TESTS: 149 NUMBER OF LINES: 795 CONFIGURATION: Fluke 5500A (SC) CONFIGURATION: Fluke 8842A ============================================================================= STEP FSC RANGE NOMINAL TOLERANCE MOD1 MOD2 3 4 CON 1.001 DISP This procedure was "cloned" from a CG 5011 based 1.001 DISP procedure that was tested with the UUT. However, this 1.001 DISP procedure has not been tested with the UUT. 1.002 ASK+ D N 1.003 ASK- R P J F W 1.004 IEEE [SRQ OFF] 1.005 HEAD 4.1 GENERAL INFORMATION 1.006 DISP [32] WARNING 1.006 DISP Before switching-on, ensure that the instrument has been 1.006 DISP installed in accordance with Installation Instructions 1.006 DISP outlined in chapter 3.0 of the Operating Manual. 1.007 DISP This procedure is intended to: 1.007 DISP Check the instrument's specification. 1.007 DISP Be used for incoming inspection to determine the 1.007 DISP acceptability of newly purchased instruments and/or 1.007 DISP recently recalibrated instrument. 1.007 DISP Check the necessity of recalibration after the specified 1.007 DISP recalibration intervals. 1.008 DISP NOTE: 1.008 DISP The procedure does not check every facet of the 1.008 DISP instruments calibration; rather, it is concerned 1.008 DISP primarily with those parts of the instrument which are 1.008 DISP essential to measurement accuracy and correct operation. 1.008 DISP Removing the instruments covers is not necessary to 1.008 DISP perform this procedure. All checks are make from the 1.008 DISP outside of the instrument. 1.009 DISP If the test is started within a short period after 1.009 DISP switching on, bear in mind that steps may be out of 1.009 DISP specification, due to insufficient warming-up time. 1.009 DISP 1.009 DISP Warming-up time under average conditions is 30 minutes. 1.010 DISP The performance checks are make with a stable, well- 1.010 DISP focussed, low-intensity display. Unless otherwise noted, 1.010 DISP adjust the intensity and trigger-level controls as 1.010 DISP needed. 1.011 DISP NOTE: 1.011 DISP At the start of every check, the controls always occupy 1.011 DISP the preliminary settings AUTO SET position, unless 1.011 DISP otherwise stated. 1.012 DISP The input voltage has to be supplied to the A-input; 1.012 DISP unless otherwise stated. 1.012 DISP Unless otherwise stated, the switches TIME/DIV, SHIFT A 1.012 DISP and B, X-POSITION, TRACE INTENS and TEXT INTENS must be 1.012 DISP put in such a position that a good read-out of the 1.012 DISP phenomena of interest is obtained. 1.013 HEAD 4.3 PRELIMINARY SETTINGS 1.014 DISP Switch-on the instrument (no input signal). 1.015 RSLT =Verification of LCD segments. 1.016 EVAL Did all LCD segments illuminate for approx. 1 sec? 2.001 IEEE [SPL][SRQ ON]SET AUT[10][D7000] 2.001 IEEE VER A,IMP HIGH,VER B,IMP HIGH[10] 2.002 RSLT =Verification of SOFTSTART condition. 2.003 MESS After adjustment of TEXT INTENS and TRACE INTENS is the 2.004 EVAL readout information and a horizontal line visible on the CRT? 3.001 MESS 3.002 HEAD {B.1 TRACE DISTORTION} 3.003 IEEE SET AUT[10][D7000]VER A,CPL ZERO,POS CAL[10][GTL] 3.004 EVAL Is trace exactly parallel with the horizontal graticule lines? 3.005 DISP Adjust front panel TRACE ROTATION 3.005 DISP so that the trace is exactly parallel with the 3.005 DISP horizontal graticule lines. 3.006 JMP 3.004 4.001 IEEE POS 160[10][GTL] 4.002 EVAL Does the deviation from the straight line exceed 0.1 div? [N] 5.001 IEEE POS 860[10][GTL] 5.002 EVAL Does the deviation from the straight line exceed 0.1 div? [N] 6.001 IEEE SET AUT[10][D7000]VER A,POS CAL[10][GTL] 6.002 DISP Connect the 5500A Scope Output to ch.A. 6.003 5500 0.2 1.6Vpp 2kH SI SC N 6.004 IEEE VER A,POS 487,VER B,POS 487,CHP ON, 6.004 IEEE MSC R0,YVX ON,DSP ON[10][GTL] 6.005 EVAL Is a vertical line of 8 div. displayed? 7.001 5500 Vpp 2kH SI SC S 7.002 IEEE XPOS -2000[10][GTL] 7.003 EVAL Does the deviation from the straight line exceed 0.1 div? [N] 8.001 5500 Vpp 2kH SI SC S 8.002 IEEE XPOS 2000[10][GTL] 8.003 EVAL Does the deviation from the straight line exceed 0.1 div? [N] 9.001 5500 Vpp 2kH SI SC S 9.002 IEEE XPOS 0[10][GTL] 9.003 MESS Does the angle between the vertical graticule lines and 9.004 EVAL the displayed line exceed 0.5 degrees? [N] 10.001 MESS 10.002 HEAD {C.1 INPUT COUPLING: ch.A} 10.003 5500 120mVpp 1kH SI SC S L 10.004 IEEE SET AUT[10][D9000]HOR MTB,CPL DC,TIM 20E-03,LEV 300, 10.004 IEEE VER A,CPL DC,IMP LOW,ATT 20E-03,OFS AUT[10][GTL] 10.005 5500 40 240mVpp 10H SI SC N L 10.006 MESS Set TRIGGER LEVEL for a triggered display. 10.007 IEEE CPL AC,HOR MTB,LEV 230[10][GTL] 10.008 EVAL Is the amplitude of the displayed signal >=4.3 div? 11.001 MESS 11.002 IEEE VER A,CPL ZERO[10] 11.003 EVAL Is only a straight line displayed? 12.001 HEAD {C.1 INPUT COUPLING: ch.B} 12.002 DISP Connect the 5500A Scope Output to ch.B. 12.003 5500 120mVpp 1kH SI SC S L 12.004 IEEE SET AUT[10][D9000]HOR MTB,CPL DC,TIM 20E-03,LEV 300, 12.004 IEEE VER B,CPL DC,IMP LOW,ATT 20E-03,OFS AUT[10][GTL] 12.005 5500 40 240mVpp 10H SI SC N L 12.006 MESS Set TRIGGER LEVEL for a triggered display. 12.007 IEEE CPL AC,HOR MTB,LEV 230[10][GTL] 12.008 EVAL Is the amplitude of the displayed signal >=4.3 div? 13.001 MESS 13.002 IEEE VER B,CPL ZERO[10] 13.003 EVAL Is only a straight line displayed? 14.001 DISP Disconnect the 5500A from the UUT. 14.002 IEEE VER A,IMP HIGH,VER B,IMP HIGH[10] 14.003 HEAD {C.2 VERTICAL DEFLECTION COEFFICIENTS: ch.A} 14.004 DISP Connect the 5500A NORMAL HI and LO to ch.A using a 14.004 DISP dual banana to BNC adapter. 14.005 5500 20mVpp 1kH SI S 2W 14.006 IEEE SET AUT[10][D9000]VER A,CPL DC,ATT 5E-03,POS 330[10] 14.006 IEEE [GTL] 14.007 5500 5 20mVpp 2% 1kH SI 2W 15.001 IEEE ATT 10E-03[10][GTL] 15.002 5500 10 50mVpp 2% 1kH SI 2W 16.001 IEEE ATT 20E-03[10][GTL] 16.002 5500 20 100mVpp 2% 1kH SI 2W 17.001 IEEE ATT 50E-03[10][GTL] 17.002 5500 50 200mVpp 2% 1kH SI 2W 18.001 IEEE ATT .1E+00[10][GTL] 18.002 5500 100 500mVpp 2% 1kH SI 2W 19.001 IEEE ATT .2E+00[10][GTL] 19.002 5500 200 1000mVpp 2% 1kH SI 2W 20.001 IEEE ATT .5E+00[10][GTL] 20.002 5500 500 2000mVpp 2% 1kH SI 2W 21.001 IEEE ATT 1E+00[10][GTL] 21.002 5500 1 5Vpp 2% 1kH SI 2W 22.001 IEEE ATT 2E+00[10][GTL] 22.002 5500 2 10Vpp 2% 1kH SI 2W 23.001 IEEE ATT 5E+00[10][GTL] 23.002 5500 5 20Vpp 2% 1kH SI 2W 24.001 IEEE VAR 344[10][GTL] 24.002 5500 20Vpp 1kH SI S 2W 24.003 EVAL Is signal amplitude 1.7 to 2.3 divisions? 25.001 IEEE VAR CAL[10] 25.002 HEAD {C.2 VERTICAL DEFLECTION COEFFICIENTS: ch.B} 25.003 DISP Connect the 5500A NORMAL HI and LO to ch.B using a 25.003 DISP dual banana to BNC adapter. 25.004 5500 20mVpp 1kH SI S 2W 25.005 IEEE SET AUT[10][D9000]VER B,CPL DC,ATT 5E-03,POS 330[10] 25.005 IEEE [GTL] 25.006 5500 5 20mVpp 2% 1kH SI 2W 26.001 IEEE ATT 10E-03[10][GTL] 26.002 5500 10 50mVpp 2% 1kH SI 2W 27.001 IEEE ATT 20E-03[10][GTL] 27.002 5500 20 100mVpp 2% 1kH SI 2W 28.001 IEEE ATT 50E-03[10][GTL] 28.002 5500 50 200mVpp 2% 1kH SI 2W 29.001 IEEE ATT .1E+00[10][GTL] 29.002 5500 100 500mVpp 2% 1kH SI 2W 30.001 IEEE ATT .2E+00[10][GTL] 30.002 5500 200 1000mVpp 2% 1kH SI 2W 31.001 IEEE ATT .5E+00[10][GTL] 31.002 5500 500 2000mVpp 2% 1kH SI 2W 32.001 IEEE ATT 1E+00[10][GTL] 32.002 5500 1 5Vpp 2% 1kH SI 2W 33.001 IEEE ATT 2E+00[10][GTL] 33.002 5500 2 10Vpp 2% 1kH SI 2W 34.001 IEEE ATT 5E+00[10][GTL] 34.002 5500 5 20Vpp 2% 1kH SI 2W 35.001 IEEE VAR 344[10][GTL] 35.002 5500 20Vpp 1kH SI S 2W 35.003 EVAL Is signal amplitude 1.7 to 2.3 divisions? 36.001 IEEE VAR CAL[10] 36.002 ASK- N 36.003 ASK+ B 36.004 HEAD {C.3 INPUT IMPEDANCE AND CAPACITANCE: ch.A} 36.005 DISP Connect the 5500A NORMAL HI and LO to ch.A via a 36.005 DISP dual banana to BNC adapter and a 1 MOhm/14pF dummy 36.005 DISP probe 2:1. 36.006 5500 50mVpp 1kH SI SC S 36.007 IEEE SET AUT[10][D9000]VER A,CPL DC,ATT 5E-03,POS 330[10] 36.007 IEEE [GTL] 36.008 MESS Is signal free from overshoot or undershoot and 36.008 MESS is the vertical amplitude 5 div. +/-0.2 div? 36.009 5500 10 50mVpp 2% 1kH SI 2W 37.001 IEEE ATT 10E-03[10][GTL] 37.002 5500 20 100mVpp 2% 1kH SI 2W 38.001 IEEE ATT 20E-03[10][GTL] 38.002 5500 40 200mVpp 2% 1kH SI 2W 39.001 IEEE ATT 50E-03[10][GTL] 39.002 5500 100 500mVpp 2% 1kH SI 2W 40.001 IEEE ATT .1E+00[10][GTL] 40.002 5500 0.2 1Vpp 2% 1kH SI 2W 41.001 IEEE ATT .2E+00[10][GTL] 41.002 5500 0.4 2Vpp 2% 1kH SI 2W 42.001 IEEE ATT .5E+00[10][GTL] 42.002 5500 1 5Vpp 2% 1kH SI 2W 43.001 IEEE ATT 1E+00[10][GTL] 43.002 5500 2 10Vpp 2% 1kH SI 2W 44.001 IEEE ATT 2E+00[10][GTL] 44.002 5500 4 20Vpp 2% 1kH SI 2W 45.001 IEEE ATT 5E+00[10][GTL] 45.002 5500 10 50Vpp 2% 1kH SI 2W 46.001 HEAD {C.3 INPUT IMPEDANCE AND CAPACITANCE: ch.B} 46.002 DISP Connect the 5500A NORMAL HI and LO to ch.B via a 46.002 DISP dual banana to BNC adapter and a 1 MOhm/14pF dummy 46.002 DISP probe 2:1. 46.003 5500 50mVpp 1kH SI S 2W 46.004 IEEE SET AUT[10][D9000]VER B,CPL DC,ATT 5E-03,POS 330[10] 46.004 IEEE [GTL] 46.005 5500 10 50mVpp 2% 1kH SI 2W 47.001 IEEE ATT 10E-03[10][GTL] 47.002 5500 20 100mVpp 2% 1kH SI 2W 48.001 IEEE ATT 20E-03[10][GTL] 48.002 5500 40 200mVpp 2% 1kH SI 2W 49.001 IEEE ATT 50E-03[10][GTL] 49.002 5500 100 500mVpp 2% 1kH SI 2W 50.001 IEEE ATT .1E+00[10][GTL] 50.002 5500 0.2 1Vpp 2% 1kH SI 2W 51.001 IEEE ATT .2E+00[10][GTL] 51.002 5500 0.4 2Vpp 2% 1kH SI 2W 52.001 IEEE ATT .5E+00[10][GTL] 52.002 5500 1 5Vpp 2% 1kH SI 2W 53.001 IEEE ATT 1E+00[10][GTL] 53.002 5500 2 10Vpp 2% 1kH SI 2W 54.001 IEEE ATT 2E+00[10][GTL] 54.002 5500 4 20Vpp 2% 1kH SI 2W 55.001 IEEE ATT 5E+00[10][GTL] 55.002 5500 10 50Vpp 2% 1kH SI 2W 56.001 MESS 56.002 ASK- B 56.003 ASK+ N 56.004 DISP Disconnect the 5500A from the UUT. 56.005 HEAD {C.4 PROTECTION OF 50 Ohm INPUT IMPEDANCE: ch.A} 56.006 DISP Connect the 5500A Scope Output to ch.A. 56.007 5500 6Vpp 1kH SQ SC S 56.008 IEEE SET AUT[10][D9000]VER A,IMP LOW[10] 56.009 EVAL Is ch.A input impedance 50 Ohm? 57.001 5500 15Vpp 1kH SQ SC S 57.002 MESS Did the UUT automatically switch ch.A input impedance 57.003 EVAL back to 1 MOhm? 58.001 MESS 58.002 5500 15Vpp 1kH SQ SC S 58.003 IEEE IMP LOW[10] 58.004 EVAL Is ch.A input impedance 50 Ohm? [N] 59.001 HEAD {C.4 PROTECTION OF 50 Ohm INPUT IMPEDANCE: ch.B} 59.002 DISP Connect the 5500A Scope Output to ch.B. 59.003 5500 6Vpp 1kH SQ SC S 59.004 IEEE SET AUT[10][D9000]VER B,IMP LOW[10] 59.005 EVAL Is ch.B input impedance 50 Ohm? 60.001 5500 15Vpp 1kH SQ SC S 60.002 MESS Did the UUT automatically switch ch.B input impedance 60.003 EVAL back to 1 MOhm? 61.001 MESS 61.002 5500 15Vpp 1kH SQ SC S 61.003 IEEE IMP LOW[10] 61.004 EVAL Is ch.B input impedance 50 Ohm? [N] 62.001 DISP Disconnect the 5500A from the UUT. 62.002 HEAD {C.5 VERTICAL DYNAMIC RANGE: ch.A} 62.003 DISP Connect the 5500A Scope Output to ch.A. 62.004 5500 2Vpp 200MH LS SC S L 62.005 IEEE SET AUT[10][D15000]VER A,IMP LOW,ATT .5E+00,OFS AUT[10] 62.005 IEEE [GTL] 62.006 5500 500 2000mVpp 200MH LS SC N L 62.007 IEEE ATT .2E+00[10][GTL] 62.008 MESS Shift the displayed sinewave upwards and downwards. 62.009 EVAL Is it free from distortion? 63.001 MESS 63.002 HEAD {C.5 VERTICAL DYNAMIC RANGE: ch.B} 63.003 DISP Connect the 5500A Scope Output to ch.B. 63.004 5500 2Vpp 200MH LS SC S L 63.005 IEEE SET AUT[10][D15000]VER B,IMP LOW,ATT .5E+00,OFS AUT[10] 63.005 IEEE [GTL] 63.006 5500 500 2000mVpp 200MH LS SC N L 63.007 IEEE ATT .2E+00[10][GTL] 63.008 MESS Shift the displayed sinewave upwards and downwards. 63.009 EVAL Is it free from distortion? 64.001 MESS 64.002 DISP Disconnect the 5500A from the UUT. 64.003 HEAD {C.6 VERTICAL BANDWIDTH: ch.A 50 Ohm} 64.004 DISP Connect the 5500A Scope Output to ch.A. 64.005 5500 120mVpp 100kH LS SC S L 64.006 IEEE SET AUT[10][D9000]VER A,IMP LOW,ATT 20E-03[10][GTL] 64.007 5500 20 120mVpp 100kH LS SC N L 64.008 5500 mVpp 200MH LS SC S L 64.009 IEEE HOR MTB,TIM 5E-09[10][GTL] 64.010 EVAL Is the displayed amplitude >=4.3 div? 65.001 HEAD {C.6 VERTICAL BANDWIDTH: ch.B 50 Ohm} 65.002 DISP Connect the 5500A Scope Output to ch.B. 65.003 5500 120mVpp 100kH LS SC S L 65.004 IEEE SET AUT[10][D9000]VER B,IMP LOW,ATT 20E-03[10][GTL] 65.005 5500 20 120mVpp 100kH LS SC N L 65.006 5500 mVpp 200MH LS SC S L 65.007 IEEE HOR MTB,TIM 5E-09[10][GTL] 65.008 EVAL Is the displayed amplitude >=4.3 div? 66.001 DISP Disconnect the 5500A from the UUT. 66.002 HEAD {C.6 VERTICAL BANDWIDTH: ch.A 1 MOhm} 66.003 DISP Connect a 50 Ohm terminator directly to the output of 66.003 DISP the 5500A. 66.003 DISP 66.003 DISP Connect a 10:1 attenuator probe PM8929/09 to ch.A. 66.003 DISP 66.003 DISP NOTE: This probe must be correctly compensated according 66.003 DISP to the procedure given in chapter 8.1.1.4 in the 66.003 DISP operating manual. 66.004 DISP Put the probe tip via a BNC/probe tip adapter in the 66.004 DISP 50 Ohm terminator. 66.005 5500 1200mVpp 100kH LS SC S L 66.006 IEEE SET AUT[10][D9000]VER A,ATT 20E-03[10][GTL] 66.007 5500 200 1200mVpp 100kH LS SC N L 66.008 5500 mVpp 200MH LS SC S L 66.009 IEEE HOR MTB,TIM 5E-09[10] 66.010 EVAL Is the displayed amplitude >=4.3 div? 67.001 HEAD {C.6 VERTICAL BANDWIDTH: ch.B 1 MOhm} 67.002 DISP Move the probe to ch.B. 67.003 5500 1200mVpp 100kH LS SC S L 67.004 IEEE SET AUT[10][D9000]VER B,ATT 20E-03[10][GTL] 67.005 5500 200 1200mVpp 100kH LS SC N L 67.006 5500 mVpp 200MH LS SC S L 67.007 IEEE HOR MTB,TIM 5E-09[10] 67.008 EVAL Is the displayed amplitude >=4.3 div? 68.001 DISP Disconnect the probe from the UUT and the terminator 68.001 DISP from the 5500A. 68.002 HEAD {C.7 BANDWIDTH LIMITER: ch.A} 68.003 DISP Connect the 5500A Scope Output to ch.A. 68.004 5500 120mVpp 20MH LS SC S L 68.005 IEEE SET AUT[10][D15000]VER A,IMP LOW,ATT 20E-03[10][GTL] 68.006 5500 20 120mVpp 20MH LS SC N L 68.007 IEEE BWL ON[10][GTL] 68.008 EVAL Is the displayed amplitude <4.3 div? 69.001 HEAD {C.7 BANDWIDTH LIMITER: ch.B} 69.002 DISP Connect the 5500A Scope Output to ch.B. 69.003 5500 120mVpp 20MH LS SC S L 69.004 IEEE SET AUT[10][D15000]VER B,IMP LOW,ATT 20E-03[10][GTL] 69.005 5500 20 120mVpp 20MH LS SC N L 69.006 IEEE BWL ON[10][GTL] 69.007 EVAL Is the displayed amplitude <4.3 div? 70.001 DISP Disconnect the 5500A from the UUT. 70.002 HEAD {C.8 PULSE RESPONSE: ch.A 50 Ohm} 70.003 DISP Connect the 5500A Scope Output to ch.A. 70.004 5500 1000mVpp 1MH ED SC S L 70.005 IEEE SET AUT[10][D11000]VER A,CPL DC,IMP LOW,ATT .2E+00[10] 70.005 IEEE [GTL] 70.006 5500 200 1000mVpp 1MH ED SC N L 70.007 IEEE HOR MTB,TIM 5E-09[10][GTL] 70.008 MESS During the first 10ns are the pulse abberations within 70.009 EVAL +/-0.3 div? 71.001 MESS 71.002 HEAD {C.8 PULSE RESPONSE: ch.B 50 Ohm} 71.003 DISP Connect the 5500A Scope Output to ch.B. 71.004 5500 1000mVpp 1MH ED SC S L 71.005 IEEE SET AUT[10][D11000]VER B,CPL DC,IMP LOW,ATT .2E+00[10] 71.006 IEEE [GTL] 71.007 5500 200 1000mVpp 1MH ED SC N L 71.008 IEEE HOR MTB,TIM 5E-09[10][GTL] 71.009 MESS During the first 10ns are the pulse abberations within 71.010 EVAL +/-0.3 div? 72.001 MESS 72.002 DISP Disconnect the 5500A from the UUT. 72.003 HEAD {C.8 PULSE RESPONSE: ch.A 1 MOhm} 72.004 DISP Connect a 50 Ohm terminator to the 5500A output cable. 72.004 DISP 72.004 DISP Connect the 10:1 attenuator probe to ch.A and 72.004 DISP put the probe tip via a BNC/probe tip adapter in the 72.004 DISP 50 Ohm terminator. 72.005 5500 1000mVpp 1MH ED SC S L 72.006 IEEE SET AUT[10][D9000] 72.006 IEEE VER A,CPL DC,ATT 20E-03,HOR MTB,TIM .5E-06[10][GTL] 72.007 5500 200 1000mVpp 1MH ED SC N L 72.008 IEEE TIM 5E-09[10][GTL] 72.009 MESS During the first 10ns are the pulse abberations within 72.010 EVAL +/-0.3 div? 73.001 MESS 73.002 HEAD {C.8 PULSE RESPONSE: ch.B 1 MOhm} 73.003 DISP Move the probe to ch.B. 73.004 5500 1000mVpp 1MH ED SC S L 73.005 IEEE SET AUT[10][D9000] 73.005 IEEE VER B,CPL DC,ATT 20E-03,HOR MTB,TIM .5E-06[10][GTL] 73.006 5500 200 1000mVpp 1MH ED SC N L 73.007 IEEE HOR MTB,TIM 5E-09[10][GTL] 73.008 MESS During the first 10ns are the pulse abberations within 73.009 EVAL +/-0.3 div? 74.001 MESS 74.002 DISP Disconnect the probe from the UUT and the terminator 74.002 DISP from the 5500A SCOPE Output. 74.003 HEAD {C.9 BASE LINE INSTABILITY} 74.004 IEEE SET AUT[10][D11000]VER A,CHP ON[10][GTL] 74.005 DISP Set VERTICAL SHIFT ch.A and ch.B to center traces. 74.006 IEEE VER ADD,FCN ON[10] 74.007 EVAL Is the trace centered vertically on the screen +/-0.3 div? 75.001 IEEE VER A,FCN ON,CHP ON[10][GTL] 75.002 DISP Set VERTICAL SHIFT ch.A so trace is 1 div. above mid. 75.002 DISP Set VERTICAL SHIFT ch.B so trace is 1 div. below mid. 75.002 DISP Press softkey PROCESSING>. 75.003 MESS Press softkey repeatedly to select 75.003 MESS MIN / MAX (on) and MIN / MAX (off). 75.004 EVAL Is the jump of each trace <=0.5 div? 76.001 IEEE MNM OFF[10][GTL] 76.002 MESS Switch VERTICAL AMPL/DIV ch.A and ch.B through their 76.002 MESS complete ranges. This can be done by pressing and 76.002 MESS holding down either side of the switch. 76.003 EVAL Is the jump of each trace <=0.15 div? 77.001 IEEE VER A,ATT .2E+00,VER B,ATT .2E+00[10][GTL] 77.002 DISP Press softkey RETURN. 77.003 MESS Press softkey repeatedly to select 77.003 MESS A-INVERT (on) and A-INVERT (off). 77.004 EVAL Is the jump of the ch.A trace <=0.3 div? 78.001 IEEE VER A,INV OFF[10][GTL] 78.002 MESS Press softkey repeatedly to select 78.002 MESS B-INVERT (on) and B-INVERT (off). 78.003 EVAL Is the jump of the ch.B trace <=0.3 div? 79.001 IEEE VER B,INV OFF[10][GTL] 79.002 DISP Press VERTICAL COUPLING. 79.003 MESS Press softkey repeatedly to select ch.A AC, DC 79.003 MESS and GROUND. 79.004 EVAL Is the jump of the ch.A trace <=0.1 div? 80.001 IEEE VER A,CPL DC[10][GTL] 80.002 MESS Press softkey repeatedly to select ch.B AC, DC 80.002 MESS and GROUND. 80.003 EVAL Is the jump of the ch.B trace <=0.1 div? 81.001 IEEE VER B,CPL DC[10][GTL] 81.002 DISP Ground ch.A externally with a BNC/banana adapter with 81.002 DISP interconnected outlets. 81.003 MESS Switch VERTICAL VARIABLE ch.A repeatedly between its 81.003 MESS extreme positions. 81.004 EVAL Is the jump of the ch.A trace <=0.6 div? 82.001 IEEE VER A,VAR CAL[10][GTL] 82.002 DISP Move the BNC/banana adapter to ch.B. 82.003 MESS Switch VERTICAL VARIABLE ch.B repeatedly between its 82.003 MESS extreme positions. 82.004 EVAL Is the jump of the ch.B trace <=0.6 div? 83.001 DISP Remove the BNC/banana adapter. 83.002 IEEE VER B,VAR CAL[10][GTL] 83.003 DISP Set VERTICAL SHIFT ch.A and ch.B to center traces. 83.003 DISP Press MAGNIFY. 83.004 MESS Press softkeys to repeatedly select Yx1 83.004 MESS and Yx5. 83.005 EVAL Is the jump of each trace <=0.5 div? 84.001 MESS 84.002 HEAD {C.10 COMMON MODE REJECTION RATIO} 84.003 DISP Connect the 5500A Scope Output to ch.A and ch.B via 84.003 DISP a 50 Ohm terminator and BNC-T. 84.004 5500 1.6Vpp 100kH SI SC S L 84.005 IEEE SET AUT[10][D15000] 84.005 IEEE VER A,IMP HIGH,ATT .2E+00,VER B,IMP HIGH,ATT .2E+00[10] 84.005 IEEE [GTL] 84.006 DISP Set VERTICAL SHIFT ch.A and ch.B to center the traces. 84.007 IEEE INV ON,VER ADD,FCN ON[10][GTL] 84.008 DISP Set VERTICAL VARIABLE ch.A or ch.B for minimal trace 84.008 DISP amplitude. 84.009 5500 1.6Vpp 1MH LS SC S L 84.010 EVAL Is the trace amplitude <=0.08 div? 85.001 5500 1.6Vpp 50MH LS SC S L 85.002 IEEE HOR MTB,TIM .2E-06[10][GTL] 85.003 EVAL Is the trace amplitude <=0.4 div? 86.001 DISP Disconnect the 5500A from the UUT. 86.002 HEAD {C.11 AVERAGE FUNCTION} 86.003 OPBR This test requires a another function generator in 86.003 OPBR addition to the 5500A. 86.003 OPBR Do you to perform the test? 86.004 JMPT 86.008 86.005 RSLT =#### Not tested #### 86.006 JMP 87.003 86.007 IEEE VER A,IMP LOW,VER B,IMP LOW[10] 86.008 DISP Connect the function generator to ch.A. 86.009 DISP Setup the function generator to output a 86.010 DISP 1.22Vpp, 1kHz, sinewave. 86.011 IEEE SET AUT[10][D9000]HOR MTB,CPL LFAC[10] 86.012 DISP Connect the 5500A Scope Output to ch.B. 86.013 5500 0.2Vpp 100MH LS SC S L 86.014 IEEE VER ADD,FCN ON[10][GTL] 86.015 DISP Set TRIGGER LEVEL for a triggered display. 86.016 DISP Press softkey PROCESSING>. 86.016 DISP Press softkey AVERAGE >. 86.017 MESS Does the display become cleaner (noise eliminated) 86.017 MESS as averaging is increased sequentially from 86.018 EVAL C = 2 to C = 64? 87.001 MESS 87.002 DISP Disconnect the function generator and 5500A from 87.002 DISP the UUT. 87.003 HEAD {D.1 DEFLECTION COEFFICIENTS TIME BASE} 87.004 DISP Connect the 5500A Scope Output to ch.A. 87.005 5500 1T MK SC S L 87.006 MESS Set TRIGGER LEVEL for a triggered display. 87.007 IEEE SET AUT[10][D9000] 87.007 IEEE VER A,ATT 1E+00,CPL DC,HOR MTB,CPL DC[10][GTL] 87.008 IEEE TIM 5E+00[10][GTL] 87.009 5500 5 5T 1% MK SC L 88.001 IEEE TIM 2E+00[10][GTL] 88.002 5500 2 2T 1% MK SC L 89.001 IEEE TIM 1E+00[10][GTL] 89.002 5500 1 1T 1% MK SC L 90.001 IEEE TIM .5E+00[10][GTL] 90.002 5500 500 500mT 1% MK SC L 91.001 IEEE TIM .2E+00[10][GTL] 91.002 5500 200 200mT 1% MK SC L 92.001 IEEE TIM .1E+00[10][GTL] 92.002 5500 100 100mT 1% MK SC L 93.001 IEEE TIM 50E-03[10][GTL] 93.002 5500 50 50mT 1% MK SC L 94.001 IEEE TIM 20E-03[10][GTL] 94.002 5500 20 20mT 1% MK SC L 95.001 IEEE TIM 10E-03[10][GTL] 95.002 5500 10 10mT 1% MK SC L 96.001 IEEE TIM 5E-03[10][GTL] 96.002 5500 5 5mT 1% MK SC L 97.001 IEEE TIM 2E-03[10][GTL] 97.002 5500 2 2mT 1% MK SC L 98.001 IEEE TIM 1E-03[10][GTL] 98.002 5500 1 1mT 1% MK SC L 99.001 IEEE TIM .5E-03[10][GTL] 99.002 5500 500 500uT 1% MK SC L 100.001 IEEE TIM .2E-03[10][GTL] 100.002 5500 200 200uT 1% MK SC L 101.001 IEEE TIM .1E-03[10][GTL] 101.002 5500 100 100uT 1% MK SC L 102.001 IEEE TIM 50E-06[10][GTL] 102.002 5500 50 50uT 1% MK SC L 103.001 IEEE TIM 20E-06[10][GTL] 103.002 5500 20 20uT 1% MK SC L 104.001 IEEE TIM 10E-06[10][GTL] 104.002 5500 10 10uT 1% MK SC L 105.001 IEEE TIM 5E-06[10][GTL] 105.002 5500 5 5uT 1% MK SC L 106.001 IEEE TIM 2E-06[10][GTL] 106.002 5500 2 2uT 1% MK SC L 107.001 IEEE TIM 1E-06[10][GTL] 107.002 5500 1 1uT 1% MK SC L 108.001 IEEE TIM .5E-06[10][GTL] 108.002 5500 500 500nT 1% MK SC L 109.001 IEEE TIM .2E-06[10][GTL] 109.002 5500 200 200nT 1% MK SC L 110.001 IEEE TIM .1E-06[10][GTL] 110.002 5500 100 100nT 1% MK SC L 111.001 IEEE TIM 50E-09[10][GTL] 111.002 5500 50 50nT 1% MK SC L 112.001 IEEE TIM 20E-09[10][GTL] 112.002 5500 20 20nT 1% MK SC L 113.001 IEEE TIM 10E-09[10][GTL] 113.002 5500 10 10nT 1% MK SC L 114.001 IEEE TIM 5E-09[10][GTL] 114.002 5500 5 5nT 1% MK SC L 115.001 DISP Disconnect the 5500A from the UUT. 115.002 HEAD {D.2 TIME BASE LINE INSTABILITY} 115.003 IEEE SET AUT[10][D7000][GTL] 115.004 MESS Switch HORIZONTAL TIME/DIV through its complete range. 115.005 EVAL Is the vertical jump of the trace <=0.6 div? 116.001 ASK- N 116.002 IEEE VER A,IMP LOW,VER B,IMP LOW[10] 116.003 HEAD {D.3 TRIGGER SENSITIVITY: ch.A} 116.004 DISP Connect the 5500A Scope Output to ch.A. 116.005 5500 0.5Vpp 100kH LS SC S L 116.006 IEEE SET AUT[10][D9000]HOR MTB,TIM 20E-09,CPL DC[10][GTL] 116.007 5500 0.5Vpp 30MH LS SC S L 116.008 MESS Adjust TRIGGER LEVEL for a triggered display. 116.008 MESS Decrease the amplitude to 0.5 div (pp). 116.009 5500 0.5Vpp 30MH LS SC N L 116.010 MESS 116.011 EVAL Is the UUT triggered? 117.001 IEEE TIM 5E-09[10][GTL] 117.002 MESS Adjust TRIGGER LEVEL for a triggered display. 117.002 MESS Decrease the amplitude to 1.0 div (pp). 117.003 5500 0.5Vpp 200MH LS SC N L 117.004 MESS 117.005 EVAL Is the UUT triggered? 118.001 MESS Adjust TRIGGER LEVEL for a triggered display. 118.001 MESS Adjust amplitude for 3 div (pp). 118.002 5500 1Vpp 300MH LS SC N L 118.003 MESS 118.004 EVAL Is the UUT triggered? 119.001 HEAD {D.3 TRIGGER SENSITIVITY: ch.B} 119.002 DISP Connect the 5500A Scope Output to ch.B. 119.003 5500 0.5Vpp 100kH LS SC S L 119.004 IEEE SET AUT[10][D9000]HOR MTB,TIM 20E-09,CPL DC[10][GTL] 119.005 5500 0.5Vpp 30MH LS SC S L 119.006 MESS Adjust TRIGGER LEVEL for a triggered display. 119.006 MESS Decrease the amplitude to 0.5 div (pp). 119.007 5500 0.5Vpp 30MH LS SC N L 119.008 MESS 119.009 EVAL Is the UUT triggered? 120.001 IEEE TIM 5E-09[10][GTL] 120.002 MESS Adjust TRIGGER LEVEL for a triggered display. 120.002 MESS Decrease the amplitude to 1.0 div (pp). 120.003 5500 0.5Vpp 200MH LS SC N L 120.004 MESS 120.005 EVAL Is the UUT triggered? 121.001 MESS Adjust TRIGGER LEVEL for a triggered display. 121.001 MESS Adjust amplitude for 3 div (pp). 121.002 5500 1Vpp 300MH LS SC N L 121.003 MESS 121.004 EVAL Is the UUT triggered? 122.001 ASK+ N 122.002 IEEE VER A,IMP HIGH[10] 122.003 HEAD {D.4 TRIGGER SENSITIVITY: EXT} 122.004 DISP Connect the 5500A Scope Output to ch.A and EXT TRIG via 122.004 DISP a 50 Ohm terminator, a BNC-T and equal length cables. 122.005 5500 100mVpp 100kH LS SC S L 122.006 IEEE SET AUT[10][D9000] 122.006 IEEE VER A,ATT 20E-03,HOR MTB,TSO EXT,TIM 20E-09,CPL DC[10] 122.006 IEEE [GTL] 122.007 5500 50mVpp 30MH LS SC S L 122.008 EVAL Can TRIGGER LEVEL be adjusted for a triggered display? 123.001 IEEE TIM 5E-09[10][GTL] 123.002 5500 100mVpp 200MH LS SC S L 123.003 EVAL Can TRIGGER LEVEL be adjusted for a triggered display? 124.001 DISP Remove the BNC-T to disconnect the 5500A from ch.A. 124.002 5500 300mVpp 300MH LS SC S L 124.003 EVAL Can TRIGGER LEVEL be adjusted for a triggered display? 125.001 HEAD {D.4 TRIGGER SENSITIVITY: EXT:10} 125.002 DISP Re-install the BNC-T to Connect the 5500A Scope Output 125.002 DISP to ch.A and EXT TRIG. 125.003 5500 1Vpp 100kH LS SC S L 125.004 IEEE SET AUT[10][D9000] 125.004 IEEE VER A,ATT .2E+00,HOR MTB,TSO EXD,TIM 20E-09,CPL DC[10] 125.004 IEEE [GTL] 125.005 5500 500mVpp 30MH LS SC S L 125.006 EVAL Can TRIGGER LEVEL be adjusted for a triggered display? 126.001 IEEE TIM 5E-09[10][GTL] 126.002 5500 1Vpp 200MH LS SC S L 126.003 EVAL Can TRIGGER LEVEL be adjusted for a triggered display? 127.001 DISP Remove the BNC-T to disconnect the 5500A from ch.A. 127.002 5500 3Vpp 300MH LS SC S L 127.003 EVAL Can TRIGGER LEVEL be adjusted for a triggered display? 128.001 DISP Disconnect the 5500A from the UUT. 128.002 HEAD {D.5 LEVEL CONTROL RANGE: ch.A} 128.003 DISP Connect the 5500A Scope Output to ch.A. 128.004 5500 1.6Vpp 50kH SI SC S L 128.005 IEEE SET AUT[10][D9000]VER A,ATT .2E+00,IMP LOW[10][GTL] 128.006 5500 0.2 1.6Vpp 50kH SI SC N L 128.007 IEEE ATT .1E+00,HOR MTB,CPL AC[10][GTL] 128.008 MESS Does the range of VERTICAL SHIFT ch.A lie at least 128.009 EVAL between top and bottom of the sinewave? 129.001 HEAD {D.5 LEVEL CONTROL RANGE: ch.B} 129.002 DISP Connect the 5500A Scope Output to ch.B. 129.003 5500 1.6Vpp 50kH SI SC S L 129.004 IEEE SET AUT[10][D9000]VER B,ATT .2E+00[10][GTL] 129.005 5500 0.2 1.6Vpp 50kH SI SC N L 129.006 IEEE ATT .1E+00,HOR MTB,CPL AC[10][GTL] 129.007 MESS Does the range of VERTICAL SHIFT ch.B lie at least 129.008 EVAL between top and bottom of the sinewave? 130.001 HEAD {D.6 LEVEL CONTROL RANGE: EXT} 130.002 DISP Connect the 5500A Scope Output to ch.A and EXT TRIG 130.002 DISP via a BNC-T & equal length cables. 130.003 5500 1.6Vpp 50kH SI SC S L 130.004 IEEE SET AUT[10][D11000]VER A,ATT .2E+00,IMP HIGH, 130.004 IEEE HOR MTB,TSO EXT,CPL AC[10][GTL] 130.005 5500 200 1600mVpp 50kH SI SC N L 130.006 MESS Does the range of VERTICAL SHIFT ch.A lie at least 130.007 EVAL between top and bottom of the sinewave? 131.001 HEAD {D.6 LEVEL CONTROL RANGE: EXT:10} 131.002 5500 16Vpp 50kH SI SC S 131.003 IEEE SET AUT[10][D11000]VER A,ATT 2E+00, 131.003 IEEE HOR MTB,TSO EXD,CPL AC[10][GTL] 131.004 5500 2 16Vpp 50kH SI SC N 131.005 MESS Does the range of VERTICAL SHIFT ch.A lie at least 131.006 EVAL between top and bottom of the sinewave? 132.001 MESS 132.002 HEAD {D.7 BANDWIDTH OF TRIGGER FILTERS} 132.003 5500 100mVpp 1kH SI SC S L 132.004 IEEE SET AUT[10][D9000]VER A,CPL DC, 132.004 IEEE HOR MTB,TSO EXT,CPL LFAC[10][GTL] 132.005 DISP Set TRIGGER LEVEL for a well triggered display. 132.006 5500 100mVpp 100kH SI SC S L 132.007 IEEE TIM 5E-06[10][GTL] 132.008 EVAL Can the LEVEL control be adjusted for a triggered display? [N] 133.001 5500 200mVpp 100kH SI SC S L 133.002 EVAL Can the LEVEL control be adjusted for a triggered display? 134.001 DISP Disconnect the 5500A from the UUT. 134.002 DISP Connect the 5500A NORMAL HI and LO to ch.A and EXT TRIG 134.002 DISP using a dual banana to BNC adapter, a BNC-T & equal 134.002 DISP length cables. 134.003 5500 100mVpp 5H SI S 2W 134.004 IEEE TIM 50E-03[10][GTL] 134.005 EVAL Can the LEVEL control be adjusted for a triggered display? [N] 135.001 5500 200mVpp 5H SI S 2W 135.002 EVAL Can the LEVEL control be adjusted for a triggered display? 136.001 DISP Disconnect the 5500A from the UUT. 136.002 HEAD {D.8 HORIZONTAL EXPANSION} 136.003 DISP Connect the 5500A Scope Output to ch.A. 136.004 5500 100uT MK SC S L 136.005 IEEE SET AUT[10][D10000] 136.005 IEEE HOR MTB,TIM .2E-03,MSC AUX,XVAR 255[10][GTL] 136.006 5500 100 100uT 5% MK SC L 137.001 DISP Disconnect the 5500A from the UUT. 137.002 HEAD {D.9 VERTICAL POSITIONING RANGE: ch.A} 137.003 DISP Connect the 5500A Scope Output to ch.A. 137.004 5500 1.6Vpp 50kH SI SC S L 137.005 IEEE SET AUT[10][D9000]VER A,ATT .2E+00,IMP LOW[10][GTL] 137.006 5500 200 1600mVpp 50kH SI SC N L 137.007 IEEE POS 1023[10] 137.008 EVAL Does the trace extend into the bottom half of the screen? [N] 138.001 5500 mVpp 50kH SI SC S L 138.002 IEEE POS 0[10] 138.003 EVAL Does the trace extend into the top half of the screen? [N] 139.001 HEAD {D.9 VERTICAL POSITIONING RANGE: ch.B} 139.002 DISP Connect the 5500A Scope Output to ch.B. 139.003 5500 1.6Vpp 50kH SI SC S L 139.004 IEEE SET AUT[10][D10000]VER B,ATT .2E+00[10][GTL] 139.005 5500 200 1600mVpp 50kH SI SC N L 139.006 IEEE POS 1023[10] 139.007 EVAL Does the trace extend into the bottom half of the screen? [N] 140.001 5500 mVpp 50kH SI SC S L 140.002 IEEE POS 0[10] 140.003 EVAL Does the trace extend into the top half of the screen? [N] 141.001 HEAD {D.9 HORIZONTAL POSITIONING RANGE} 141.002 5500 mVpp 50kH SI SC S L 141.003 IEEE POS CAL,MSC AUX,XPOS 2047[10] 141.004 EVAL Does the trace extend into the left half of the screen? [N] 142.001 5500 mVpp 50kH SI SC S L 142.002 IEEE XPOS -2048[10][GTL] 142.003 EVAL Does the trace extend into the right half of the screen? [N] 143.001 DISP Disconnect the 5500A from the UUT. 143.002 HEAD {E.1 VOLTAGE CURSOR} 143.003 DISP Connect the 5500A Scope Output to ch.A. 143.004 5500 1Vpp 1kH SI SC S L 143.005 IEEE SET AUT[10][D9000]VER A,IMP HIGH,ATT .2E+00[10][D1000] 143.005 IEEE MSC AUX,LCK ON,SPL CURSOR,CUR ON[10][GTL] 143.006 DISP Position the 1st CURSOR in the horizontal mid of the 143.006 DISP top of the waveform. 143.006 DISP Position the 2nd CURSOR in the horizontal mid of the 143.006 DISP bottom of the waveform. 143.007 IEEE DVOLT ?[10][I]MSC AUX,WRT ON[10] 143.008 MEMC 1V 0.02U 144.001 HEAD {E.2 TIME CURSOR} 144.002 5500 1mT MK SC S L 144.003 IEEE SET AUT[10][D10000] 144.003 IEEE VER A,ATT 1E+00,HOR MTB,TIM 1E-03[10][D1000] 144.003 IEEE MSC AUX,LCK ON,SPL CURSOR,CUR ON,DTIME ON[10][GTL] 144.004 DISP Position the 1st CURSOR and the 2nd CURSOR so that they 144.004 DISP cover a distance of 8 time marker intervals. 144.005 IEEE DTIME ?[10][I]MSC AUX,WRT ON[10] 144.006 MATH MEM = MEM * 1E3 144.007 MEMC 8ms 0.0016U 145.001 DISP Disconnect the 5500A from the UUT. 145.002 HEAD {F.1 CALIBRATION FREQUENCY} 145.003 DISP Connect the UUT CAL output to ch.A. 145.004 IEEE SET AUT[10][D9000]MSC AUX,LCK ON, 145.004 IEEE SPL CURSOR,CUR ON,CUR PERIOD,DTIME ON[10][D1000] 145.004 IEEE DTIME ?[10][I]MSC AUX,WRT ON[10][GTL] 145.005 MATH MEM = MEM * 1E6 145.006 MEMC 500us 1.5U 146.001 DISP Disconnect the UUT CAL output from ch.A. 146.002 HEAD {F.2 CALIBRATION VOLTAGE} 146.003 DISP Connect the UUT CAL output to the 8842A INPUT HI & LO 146.003 DISP via a 50 Ohm terminator. 146.004 8842 250mV 2.5U 2kH 2W 147.001 DISP Disconnect the 8842A from the UUT. 147.002 HEAD {G.1 VERTICAL PLOT OUTPUT VOLTAGE} 147.003 DISP Plug the plot cable into the DIN plot output socket at 147.003 DISP the rear of the UUT. 147.004 DISP Connect the 5500A Scope Output to ch.A and ch.B. 147.005 5500 1.6Vpp 100H SI SC S 147.006 IEEE SET AUT[10][D13000] 147.006 IEEE VER A,CPL DC,ATT .2E+00,VER B,CPL DC,ATT .2E+00[10][GTL] 147.007 DISP Set VERTICAL SHIFT ch.A and ch.B to center traces. 147.008 MESS Increase amplitude so displayed signal shows clipping. 147.009 5500 2.4Vpp 100H SI SC N 147.010 MESS 147.011 IEEE MSC R0,YVX ON,DSP ON,PLOTTIME 20[10] 147.012 DISP Connect the 8842A to the vertical plot output; 147.012 DISP Input Hi to the red banana plug and 147.012 DISP Input Lo to the black banana plug. 147.013 IEEE PLT ANALOG[10] 147.014 MESS The oscilloscope starts the plot action. This can be 147.014 MESS seen because the dot moves from left to right on the 147.014 MESS bottom of the screen. 147.014 MESS Note the maximum 8842A reading. 147.015 8842 1000mV S 2W 147.016 IEEE PLT OFF[10] 147.017 MEME 147.018 MEMI Enter the maximum 8842A reading observed. 147.019 MATH MEM = MEM * 1E3 147.020 MEMC 1000mV 30U 148.001 HEAD {G.2 HORIZONTAL PLOT OUTPUT VOLTAGE} 148.002 MEME 148.003 5500 Vpp 100H SI SC S 148.004 DISP Connect the 8842A to the horizontal plot output; 148.004 DISP Input Hi to the blue banana plug and 148.004 DISP Input Lo to the black banana plug. 148.005 IEEE PLT ANALOG[10] 148.006 8842 1000mV S 2W 148.007 MESS 148.008 IEEE PLT OFF[10][GTL] 148.009 MEMI Enter the maximum 8842A reading observed. 148.010 MATH MEM = MEM * 1E3 148.011 MEMC 1000mV 30U 149.001 HEAD CONCLUSION OF THE PROCEDURE 149.002 IEEE [GTL] 149.003 END